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Current Trends (and Missing Links) in Educational Technology Research and Practice

Royce kimmons.

Brigham Young University, Provo, UT USA

It has historically been difficult to find reliable, up-to-date information about educational technology trends, such as what researchers are studying and what tools practitioners are using, thereby making it difficult for researchers and practitioners to synergize their efforts in meaningful, socially-responsive ways. In this editorial, I analyze titles and abstracts of 7708 research articles from prominent journals over the past 5 years to identify common topics—such as “online,” “mobile,” and “learning analytics.” I also extract links from 51,496 K-12 school and 1317 university websites in the U.S. to identify common tools that they are linking to—such as Facebook, Twitter, Google Docs, and YouTube. I propose that these sorts of metrics provide a baseline understanding for other researchers and practitioners to draw upon when situating their work and that they can also give us insights into areas that merit greater attention for addressing real-world problems.

It is often difficult for educational technology professionals to find reliable data on current trends in the field. This can make it challenging for stakeholders, as (a) policymakers struggle to know what technologies are being used and researched, (b) practitioners struggle to know how they should adapt to changing needs and possibilities, and (c) researchers struggle to understand diffusion patterns of promising tools and how to use them to address meaningful problems.

In addition to this difficulty, in our field we often seem to struggle to understand and articulate how our work is valuable to society, lacking the ability to solve many real problems in real settings. For instance, though the COVID-19 pandemic recently influenced rapid shifts to remote and online learning—something that educational technology professionals are technically well-equipped to support—very real emergent concerns over equity, digital inclusion, privacy, and accessibility for students of all ages reveal that we as a field could be providing better leadership in the human aspect of learning—the “educational” aspect of “educational technology” (Goldstein 2020 ; Veletsianos and Kimmons 2020 ).

Many researchers have argued for decades that our field should be more situated and socially aware (Reeves et al. 2005 ), explaining that “there is a clear need for [us] ... to take stock of who we are, what it is we do, and how and why we do it,” paying greater attention “to how digital technologies are actually being used—for better and worse—in ‘real-world’ educational settings” (Selwyn 2010 , pp. 65–66). Yet, digital divides persist in evolving forms (Dolan 2016 ), research and practice are often misaligned (Amiel and Reeves 2008 ), and even seemingly fundamental ethical and social considerations often remain conspicuously ignored (like addressing issues of discriminatory design [Benjamin 2019 ] or making school websites universally accessible for students [Kimmons and Smith 2019 ]).

In a recent study of 3 years of articles from a prominent educational technology journal, Mason ( 2018 ) found that “in a substantial portion of the discourse, there is a deep metaphor of technology as the agent or driver of social progress underlying the thinking of many authors” (p. 550), often implying that “technologies have their own autonomy and agency” (p. 545). Yet, technologies rather seem to merely exacerbate many of the deep problems we face as groups, because “the societies in which technologies are introduced are not neutral, [and] if a society or school is racist, sexist, or ableist, supposedly neutral technologies can amplify those bigotries” (Krutka et al. 2020 , p. 112).

To be clear, there are leaders in the field who have sought to address these important issues for decades (e.g., Dickson-Deane et al. 2018 ; Marri 2005 ; Mehta and Aguilera 2020 ; Selwyn 2004 ; Sulecio de Alvarez and Dickson-Deane 2018 ; Tawfik et al. 2016 ; Tufekci 2014 ; Watters 2019 ), but our overall tone can remain highly technocentric and technophilic rather than learner-centric and humanizing, wherein “the nearly constant emergence of new technologies has only created the new problem of learning to use those [specific] technologies effectively [to] support learning” (Spector 2020 , p. 834). Yet, as Spector ( 2020 ) recently argued: “We can do better as educators and educational technology researchers. We can forego the impulse to use a technology just because it is new … [and] focus on helping students learn—all students … not just the gifted or those we like or who like us or who are like us” (p. 835).

In this brief editorial, I will share some high-level results of two analyses—trending research topics among prominent educational technology research journals for the past 5 years and trending links from K-12 school and university websites in the U.S. in 2019—to show what is currently happening in educational technology, where there might be potential disconnects between research and practice, and how we might realign our emphases to better address pertinent real-world problems. These analyses rely wholly upon public data sources available through the internet (Kimmons and Veletsianos 2018 ), and though not exhaustive or representative of all contexts, they should at least provide some useful lenses for discerning what is happening (and perhaps what is missing) in educational technology.

Trending Research Topics

To understand the topics educational technology researchers have been studying over the past 5 years, I used the Elsevier Scopus ( n.d. ) API to collect all articles from the most-highly-cited journals in the field of educational technology as identified by Google Scholar ( n.d. ), which included TechTrends , Computers & Education , Educational Technology Research & Development , and 13 others. This produced 7708 articles with titles and abstracts. I then parsed each title and abstract into a list of keywords, removing stopwords (e.g., “a,” “and,” “the”), reducing words to their stems (e.g., “reading” and “reads” to “read”, “games” and “game-based” to “game”), and grouping words as positional pairs (e.g., “learning” and “environment” together for “learning environment”). Titles produced over 8500 unique keywords (e.g., “flipped,” “classroom”), while abstracts produced nearly 30,000. Reading top keywords and pairs for the current year, I excluded those that dealt with general aspects of the field (e.g., “technology,” “learning”), research methods (e.g., “case study”), participants (e.g., “teachers”), grade levels, and so forth, allowing the analysis to focus on those that dealt with specific areas of study, topics, or technologies. Top results for article titles in the current year are provided in Table ​ Table1, 1 , and results from abstracts are provided in Table ​ Table2. 2 . In each table, raw numbers of articles that included the keyword or pair are provided from 5 years ago, while subsequent years are represented as percentage increases or decreases from each previous year to show relative adjustments over time.

Trending technologies from school website links

Trending technologies from college and university website links

a This dataset was collected from homepages provided from a previous dataset of college and university Twitter accounts (Kimmons et al. 2017 ), so links to Twitter would be represented at close to 100% and absolute percentages may not be representative of institutional websites broadly

Trending topics from research article titles as ranked by 2019 prevalence

Trending topics from research article abstracts as ranked by 2019 prevalence

We see from these title results that the modality “online” (e.g., “online learning,” “online teaching”) has clearly been the most-researched topic over the past 5 years, followed by the modality “mobile,” and accompanied by related modalities of “e-learning,” “blended,” and “distance.” The most-researched subject areas in this time period included “language” (including “EFL”), “science,” “writing,” “reading,” and “mathematics.” The most-researched applications of technologies or approaches have included “games,” “flipped,” “learning environment,” “video,” “MOOCs, “media,” “virtual reality,” and “augmented reality,” with “data” and “learning analytics” also making the list.

When analyzing abstracts, only keyword pairs were considered, given the greater variability and volume of common words extracted from the lengthier artifacts (e.g., “student,” “education”), and keyword pairs representing generalities, research methods, participants, etc. were excluded to focus on areas of study, topics, and technologies. Again, modalities were highly represented (e.g., “online learning,” “online course,” “mobile learning,” “flipped classroom”) along with “language learning” and “foreign language” as the dominant subject areas and “social network,” “learning analytics,” and “social media” as the dominant technologies or applications.

Taken together, these title and abstract results suggest that researchers over the past 5 years (a) have focused heavily on studying learning environments as modalities (e.g., online, mobile, flipped), (b) have done so with the purpose of achieving learning goals related to language learning, science, writing, reading, and mathematics, and (c) have used various technologies toward these ends, with learning analytics, virtual reality, augmented reality, and social media being some of the most prominent (Figs ​ (Figs1 1 & 2 .).

Trending keyword pairs from research article abstracts as ranked by 2019 prevalence

Trending Technologies from Institutional Websites

As another data source, I also parsed links from 51,496 U.S. K-12 school websites and 1317 U.S. college or university websites to attempt to determine what tools these institutions were linking to (and by extension using) with their students and communities. Because the number of unique links exhibited highly positive skew (with many sites providing very few external links), I excluded all sites below the median number of unique external links (median = 16 for K-12 schools). This resulted in the analysis of 954 K external links from K-12 sites, representing 25,889 websites, and 82 K external links from college and university sites, representing 10,682 websites.

Results indicated that the top sites that K-12 schools linked to included social media sites (e.g., Facebook, Twitter, Instagram, LinkedIn), media sharing sites (e.g., YouTube, Vimeo), a host of different Google tools (Docs, Sites, Drive, Translate, Mail), and various other tools that are designed to support school business management and communication processes (e.g., SchoolMessenger, My School Bucks, PeachJar). These results mimicked other studies on school websites, which have generally shown that schools link to free, generic, non-pedagogical tools, like YouTube, much more than fee-based or education-specific tools, like SchoolTube (Kimmons 2015 ; Kimmons et al. 2019 ). College and university websites exhibited similar prioritization of links to social media, email, and image and video sharing services, coupled with a few types of services unique to that market (e.g., virtual campus tours).

Trends and Missing Links

Though web scraping of school websites is by no means a complete measure of school use and cannot capture most pedagogical and classroom uses, differences between what is being researched and what is being used by educational institutions to communicate and share with their communities should at least make us wonder whether trending research topics actually focus on what is happening in and is useful for our institutions. Google Docs/Drive, for instance, was only mentioned in 18 abstracts (0.2%), although it was represented on 25.9% of school websites, and Facebook and Twitter were mentioned in 132 (1.7%) and 61 (0.8%) abstracts while being represented on 56.7% and 55.3% of school websites (and most college and university websites). Research emphasis on social media overall decreased in 2017 and 2018 with a modest upturn in 2019, only exhibiting half the article count of “virtual reality,” one-third that of “MOOCs,” and one-fourth that of “flipped,” and though Google Docs and other tools might be studied in articles related to collaborative writing, peer feedback, or flipped classrooms, omission of these technologies from article abstracts should at least give us pause. Does this discrepancy reveal that research is not as needed on these topics? Or that current research focuses on issues related to learning vs. specific tools? Or that a gap exists between research and practice, with researchers and journal reviewers exhibiting a technophilic flow toward the newest technologies (rather than those that are being used by institutions to solve pressing problems)?

To further explore this, we might also consider what keywords are missing from educational technology abstracts. Notably, keywords that deal with broader social issues (even those specific to educational technology) are generally missing over the past 5 years. The keyword “accessibility” was only included in 80 abstracts (1%); only 59 (0.8%) mentioned “women;” only 50 (0.6%) mentioned “privacy;” only 33 (0.4%) mentioned a “digital divide;” only 32 (0.4%) mentioned “justice;” only 27 (0.4%) mentioned “equity” or “equitable;” only 13 (0.2%) mentioned “poverty” or “impoverish;” only 9 (0.1%) mentioned “universal design;” only 8 (0.1%) mentioned “feminism” or “feminist;” only 7 (0.1%) mentioned “racial;” and only 1 mentioned “racism” or “racist,” with only about 3% of articles mentioning any of these words. As a specific example, only 8 (2.2%) of the 368 articles studying “online learning” in the past 5 years mentioned the word “accessibility” or “accessible” in their abstracts, and none mentioned privacy, which seems like a major problem. If we are studying “how to make online learning work” but not “how to make it work for all students ” or “how to protect our students while they are learning online,” then are our attentions where they should be?

Such missing links and lack of emphasis on social issues, especially in cases that should be of paramount interest to educational technology (like digital divides, accessibility, and privacy), suggests that the field may be struggling to orient its work toward solving relevant real-world problems, and researchers should consider how their efforts can more meaningfully inform socially-responsible policy and practice. Some specialized research areas and methods show focus and promise in this regard, such as “open education” or “open educational resources,” which was represented in 1.6% of abstracts, and “design research” or “design-based research,” which was represented in 1% of abstracts, but such tokens seem a pittance when compared to pressing social needs of the day.

As another promising example, in a recent special issue of TechTrends , guest editors Dickson-Deane et al. ( 2018 ) argued that “we cannot accurately understand how best to attend to issues of learning and technology without acknowledging that culture permeates all environments in which learning takes place, and every technology created and implemented reflects and is imbued with aspects of the culture(s) of its creator” (p. 310). Over the past 5 years, 6.9% of abstracts in these journals have mentioned a variant of the word “culture” (such as “sociocultural”), which, though small, suggests some growing interest and recognition of the topic’s importance to the field.

As we continue moving forward together, it is my hope to continue this editorial each March for documenting ongoing trends of educational technology as well as our growth and development as a field for the previous year. Using public data sources like these as an ongoing litmus test can potentially help us to bridge the research-practice divide and to better align research activities with emergent needs. In future versions, I plan to also include analyses of social media data and other sources to show these trends through more lenses that also account for what practitioners are sharing, what they are finding to be of value, and what problems they believe to be important. Hopefully, as we continue in this exciting and important work, we can refine these data collection processes and also refine our efforts as educational researchers and practitioners to allow for closer alignment between our research and practice efforts while also striving for greater harmony between our professional efforts and the creation of a better, more equitable world.

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• Amiel T, Reeves TC. Design-based research and educational technology: Rethinking technology and the research agenda. Journal of Educational Technology & Society. 2008; 11 (4):29–40. [ Google Scholar ]
• Benjamin R. Race after technology: Abolitionist tools for the new Jim code. Cambridge, UK: Polity; 2019. [ Google Scholar ]
• Dickson-Deane C, Bradshaw AC, Asino TI. Recognizing the inseparability of culture, learning, and technology. TechTrends. 2018; 62 :310–311. [ Google Scholar ]
• Dolan JE. Splicing the divide: A review of research on the evolving digital divide among K–12 students. Journal of Research on Technology in Education. 2016; 48 (1):16–37. [ Google Scholar ]
• Elsevier Scopus. (n.d.). Elsevier Scopus APIs. Elsevier Developers . Retrieved from https://dev.elsevier.com/sc_apis.html
• Goldstein, D. (2020). Research shows students falling months behind during virus disruptions. The New York Times. Retrieved from https://www.nytimes.com/2020/06/05/us/coronavirus-education-lost-learning.html
• Google Scholar. (n.d.). Educational technology Google Scholar metrics. Google Scholar . Retrieved from https://scholar.google.com/citations?view_op=top_venues&vq=soc_educationaltechnology
• Kimmons R. Open online system adoption in K-12 as a democratizing factor. Open Learning: The Journal of Open, Distance and e-Learning. 2015; 30 (2):138–151. doi: 10.1080/02680513.2015.1077109. [ CrossRef ] [ Google Scholar ]
• Kimmons, R., Hunsaker, E., Jones, J. E., & Stauffer, M. (2019). The nationwide landscape of K-12 school websites in the United States: Systems, services, intended audiences, and adoption patterns. The International Review of Research in Open and Distributed Learning, 20 (3). 10.19173/irrodl.v20i4.3794.
• Kimmons, R., & Smith, J. (2019). Accessibility in mind? A nationwide study of K-12 websites in the U.S. First Monday, 24 (2). 10.5210/fm.v24i2.9183.
• Kimmons R, Veletsianos G. Public internet data mining methods in instructional design, educational technology, and online learning research. TechTrends. 2018; 62 (5):492–500. doi: 10.1007/s11528-018-0307-4. [ CrossRef ] [ Google Scholar ]
• Kimmons R, Veletsianos G, Woodward S. Institutional uses of Twitter in U.S. higher education. Innovative Higher Education. 2017; 42 (2):97–111. doi: 10.1007/s10755-016-9375-6. [ CrossRef ] [ Google Scholar ]
• Krutka DG, Heath MK, Mason LE. Editorial: Technology won’t save us – A call for technoskepticism in social studies. Contemporary Issues in Technology and Teacher Education. 2020; 20 (1):108–120. [ Google Scholar ]
• Marri A. Educational technology as a tool for multicultural democratic education: The case of one US history teacher in an underresourced high school. Contemporary Issues in Technology and Teacher Education. 2005; 4 (4):395–409. [ Google Scholar ]
• Mason L. A critical metaphor analysis of educational technology research in the social studies. Contemporary Issues in Technology and Teacher Education. 2018; 18 (3):538–555. [ Google Scholar ]
• Mehta R, Aguilera E. A critical approach to humanizing pedagogies in online teaching and learning. The International Journal of Information and Learning Technology. 2020; 37 (3):109–120. [ Google Scholar ]
• Reeves TC, Herrington J, Oliver R. Design research: A socially responsible approach to instructional technology research in higher education. Journal of Computing in Higher Education. 2005; 16 (2):96. [ Google Scholar ]
• Selwyn N. Reconsidering political and popular understandings of the digital divide. New Media & Society. 2004; 6 (3):341–362. [ Google Scholar ]
• Selwyn N. Looking beyond learning: Notes towards the critical study of educational technology. Journal of Computer Assisted Learning. 2010; 26 (1):65–73. [ Google Scholar ]
• Spector JM. Remarks on progress in educational technology. Educational Technology Research and Development. 2020; 68 :833–836. [ Google Scholar ]
• Sulecio de Alvarez M, Dickson-Deane C. Avoiding educational technology pitfalls for inclusion and equity. TechTrends. 2018; 62 :345–353. [ Google Scholar ]
• Tawfik AA, Reeves TD, Stich A. Intended and unintended consequences of educational technology on social inequality. TechTrends. 2016; 60 :598–605. [ Google Scholar ]
• Tufekci, Z. (2014). Engineering the public: Big data, surveillance and computational politics. First Monday, 19 (7).
• Veletsianos, G., & Kimmons, R. (2020). What (some) students are saying about the switch to remote teaching and learning. EDUCAUSE Review .
• Watters, A. (2019). The stories we were told about education technology (2019). Hack Education. Retrieved from http://hackeducation.com/2019/12/23/top-ed-tech-stories

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Trends and topics in educational technology, 2023 edition

2023, TechTrends

In this editorial, we present trends and popular topics in educational technology for the year 2022. We used a similar public internet data mining approach (Kimmons & Veletsianos, 2018) to previous years (Kimmons, 2020; Kimmons et al., 2021; Kimmons & Rosenberg, 2022), extracting and analyzing data from three large data sources: the Scopus research article database, the Twitter #EdTech affinity group, and K-12 school and district Facebook pages. This year, we also added information related to Open Educational Resources (OER), specifically data from an edtech-focused open publishing platform, EdTech Books. Our analysis provides a snapshot of educational technology trends in 2022 from four different perspectives, affording insights into what is of interest in the field as institutions, educators, learners, and researchers adjust to the post-pandemic ‘normal’ and adopt educational technologies, resources, and practices at a more mature level.

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What 126 studies say about education technology

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In recent years, there has been widespread excitement around the transformative potential of technology in education. In the United States alone, spending on education technology has now exceeded $13 billion . Programs and policies to promote the use of education technology may expand access to quality education, support students’ learning in innovative ways, and help families navigate complex school systems.

However, the rapid development of education technology in the United States is occurring in a context of deep and persistent inequality . Depending on how programs are designed, how they are used, and who can access them, education technologies could alleviate or aggravate existing disparities. To harness education technology’s full potential, education decision-makers, product developers, and funders need to understand the ways in which technology can help — or in some cases hurt — student learning.

To address this need, J-PAL North America recently released a new publication summarizing 126 rigorous evaluations of different uses of education technology. Drawing primarily from research in developed countries, the publication looks at randomized evaluations and regression discontinuity designs across four broad categories: (1) access to technology, (2) computer-assisted learning or educational software, (3) technology-enabled nudges in education, and (4) online learning.

This growing body of evidence suggests some areas of promise and points to four key lessons on education technology.

First, supplying computers and internet alone generally do not improve students’ academic outcomes from kindergarten to 12th grade, but do increase computer usage and improve computer proficiency. Disparities in access to information and communication technologies can exacerbate existing educational inequalities. Students without access at school or at home may struggle to complete web-based assignments and may have a hard time developing digital literacy skills.

Broadly, programs to expand access to technology have been effective at increasing use of computers and improving computer skills. However, computer distribution and internet subsidy programs generally did not improve grades and test scores and in some cases led to adverse impacts on academic achievement. The limited rigorous evidence suggests that distributing computers may have a more direct impact on learning outcomes at the postsecondary level.

Second, educational software (often called “computer-assisted learning”) programs designed to help students develop particular skills have shown enormous promise in improving learning outcomes, particularly in math. Targeting instruction to meet students’ learning levels has been found to be effective in improving student learning, but large class sizes with a wide range of learning levels can make it hard for teachers to personalize instruction. Software has the potential to overcome traditional classroom constraints by customizing activities for each student. Educational software programs range from light-touch homework support tools to more intensive interventions that re-orient the classroom around the use of software.

Most educational software that have been rigorously evaluated help students practice particular skills through personalized tutoring approaches. Computer-assisted learning programs have shown enormous promise in improving academic achievement, especially in math. Of all 30 studies of computer-assisted learning programs, 20 reported statistically significant positive effects, 15 of which were focused on improving math outcomes.

Third, technology-based nudges — such as text message reminders — can have meaningful, if modest, impacts on a variety of education-related outcomes, often at extremely low costs. Low-cost interventions like text message reminders can successfully support students and families at each stage of schooling. Text messages with reminders, tips, goal-setting tools, and encouragement can increase parental engagement in learning activities, such as reading with their elementary-aged children.

Middle and high schools, meanwhile, can help parents support their children by providing families with information about how well their children are doing in school. Colleges can increase application and enrollment rates by leveraging technology to suggest specific action items, streamline financial aid procedures, and/or provide personalized support to high school students.

Online courses are developing a growing presence in education, but the limited experimental evidence suggests that online-only courses lower student academic achievement compared to in-person courses. In four of six studies that directly compared the impact of taking a course online versus in-person only, student performance was lower in the online courses. However, students performed similarly in courses with both in-person and online components compared to traditional face-to-face classes.

The new publication is meant to be a resource for decision-makers interested in learning which uses of education technology go beyond the hype to truly help students learn. At the same time, the publication outlines key open questions about the impacts of education technology, including questions relating to the long-term impacts of education technology and the impacts of education technology on different types of learners.

To help answer these questions, J-PAL North America’s Education, Technology, and Opportunity Initiative is working to build the evidence base on promising uses of education technology by partnering directly with education leaders.

Education leaders are invited to submit letters of interest to partner with J-PAL North America through its  Innovation Competition . Anyone interested in learning more about how to apply is encouraged to contact initiative manager Vincent Quan .

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The Hottest Topics in Edtech for 2022!

• Education Leadership

For a few years now, we’ve shared on this blog the hottest edtech trends of the year based on the topics resonating with educators who submit proposals to present at the annual ISTE conference . The topics that presenters submit can tell us a lot about what educators are interested in — and experimenting with — in their schools and classrooms.

Often the topics don’t change much from year to year, but that hasn’t been the case the past two years. 

Last year, after many months of remote learning under their belts, educators were eager to share their best practices about online learning, as well as how to build equity and boost social emotional learning, which were three of the hottest topics going into 2021.

While those topics made the list again this year, there were some surprises at the top of the list. Here are the eight hottest topics for 2022, starting with No 8. 

8. Augmented, mixed and virtual reality 

The ISTE community has been excited about this topic for years now, but it’s been elevated recently as tools for immersive learning become more affordable, accessible and easier for both teachers and students to use.

“Education has just started to tap into what it can bring,” says Camilla Gagliolo, a longtime educator and ISTE’s senior director of event content. “Personally, I’m really excited about the growth in AR/VR and in immersive learning.”

Augmented reality involves superimposing a computer-generated image on your view of the real world. Think Pokemon Go. 

Virtual reality is a 3D, computer-generated environment that you can immerse yourself in. Using an Oculus or a similar headset, you can transport yourself to a another place or time and interact within it, whether it’s visiting the Great Pyramid of Giza or exploring the functions of the human body.

Some of the newer trends involve being able to interact with historical events that have been recreated in a virtual environment. So, you can show up at an event and actually be part of it — well, sort of.

The pandemic has caused a lot of educators to focus on how to better engage students in content online, and AR/VR is a sure-fire way to do that. 

In addition to having students experience learning through AR/VR, many educators are helping students create their own experiences.

Look for sessions on how to do this and much more with AR/VR in your classroom when the ISTELive 22 program goes live in February.

7. Social-emotional learning

As soon as COVID-19 closed school buildings in 2020, it was immediately clear that educators would need to do far more than teach their students. Every single student was struggling with something in addition to trying to adapt to a new way of learning, and educators were on the front lines of helping students feel safe, secure, emotionally stable and ready to learn. 

But many of their needs — like food, internet and medical care — were shared by the whole family, so educators realized they couldn’t help students in isolation. They had to work with families as a whole. 

In a way, roles were reversed — or at least blurred: Educators helped families meet their basic needs by assisting them with finding resources like meals, child care and other services, while parents took over a lot of the teaching tasks. 

What evolved was a whole-village approach to education, where, for the first time on a grand scale, teachers and schools were working in concert with students and families. 

“When the parent community took over the teaching, the teachers had to help the parents help the children,” Gagliolo said. “There is a new role for parents, and I think this is going to change how we work with parents going forward.”

Many individual educators and school systems as a whole developed innovative ways of working with parents and are eager to share what they’ve learned at ISTELive 22 .

6. Equity and inclusion

Never has equity and inclusion seemed more urgent than in the past two years. The pandemic brought inequities — whether they were due to socio-economic status, special needs or the family circumstances of the student — into sharp focus. 

The most immediate need was devices and bandwidth. Schools, government, the business sector and local communities combined forces to deliver devices and connectivity to nearly every household in the country, but that's not enough.

“ It took a pandemic to give every kid a device,” Gagliolo says. “Now the challenge is to get meaningful learning with these devices.”

Educators have been doing just that — experimenting with ways to make learning more engaging, student-centered and inclusive with technology tools.

 “Even Zoom has become a tool of access,” Gagliolo says. “The pandemic actually brought to the forefront what tech can do to bridge equity and meet the need for tools, platforms and access.”

Although the learning curve was high, many educators discovered strategies and ideas for making learning more accessible to a range of learners using various tools. And they are eager to share what worked at ISTELive 22.

5. Online tools and apps

This topic has been a favorite of presenters and ISTE conference participants for years because it appeals to the tech geek in all of us. But this time around, there’s an emphasis on highlighting tools that — just like students and educators themselves — have made a big leap in what they are capable of because of the pandemic.

“There’s been so much improvement in tools and apps,” Gagliolo said. “They were forced to be much more stable. They can handle more interaction and have developed features for connecting students with teachers.”

A lot of what the newest versions of tools are offering allow students to learn — and share their learning — in a variety of ways, whether it’s being able to quickly upload a video, make a comment via a sound recording, or create and quickly upload an artifact.

Free creation tools like Adobe Spark as well as myriad video-creation tools have taken a big leap in terms of ease of use and accessibility.    

4. Distance, online, blended learning

This was hands-down the hottest topic of 2021 as educators around the globe were still learning how to best transition their teaching to online formats. The biggest hurdle at first was how to use the tools. The learning curve was high as educators had to figure out everything from creating breakout groups in Zoom and Teams to establishing rules about cameras and appropriate backgrounds. 

This year the topic is less about how to use the technology and more about how to best engage students. 

And the stakes are high. Disengaged students can simply turn off their cameras when they are bored. But with the threat of learning loss looming, no educator wants any student to miss out on access to learning. So they’ve been coming up with lots of ways to stimulate collaboration and build community — online and in person. 

“There are a lot of new strategies and new tools developed over the past two years that engage students at a high level,” Gagliolo says. 

Although it’s not exactly new, she points to FlipGrid, as a tool that’s being used in diverse ways. It allows students to record comments, facilitates a connection between home and school, and lets students demonstrate their storytelling chops.

And speaking of tools, learning management systems, once the bane of educators’ existence, have enjoyed a resurgence. Educators in general have become more comfortable with these tools and are seeing the potential for communicating with students and parents in a much more streamlined way. 

3. Computer science and computational thinking

Computer science and computational thinking have long been a favorite topic of teachers who love technology and see it as a gateway for their students to enter STEM careers. So it’s no surprise that it made it to the No. 3 spot on the list.

What is more surprising is the evolution of computer science (CS) and computational thinking (CT) as something strictly reserved for math and science class to a discipline that has infiltrated all subjects, from literature and art to music and dance.

“You think of CS and CT as being for math and science, but we’re seeing educators incorporating it into language learning and storytelling quite a bit,” Gagliolo says. “It’s taking different shapes and forms and not just in the traditional areas.” 

Tools like Scratch, Snap, Tynker and KODU allow students to use programming to create stories. They develop their characters, or sprites, and build out their environments. “They can create their world and their scenario,” Gagliolo says.

2. Instructional design and delivery

Of all the topics on the list, this one is perhaps the most exciting because it illustrates a sophistication in how educators are thinking about educational technology, Gagliolo says. The focus is on educational strategies and instruction with technology for higher-order thinking — not tools and gadgets.

“The pedagogy and learning strategies are rising to the top more than the technology topics,” Gagliolo said. “It shows that awareness that learning comes first and tech tools are there to support.”

Instructional design and delivery covers an array of topics from designing content in online formats that is accessible to all learners to ensuring that the content is culturally relevant. It covers ways to encourage community and interaction among students and teachers as well as an awareness of research on how students learn and how online delivery differs from face to face. 

This information is not just from educators who have the instructional designer title. Remote learning  made educators of all subject areas and grade bands realize that they, too, were assuming the role of instructional designers. 

1. Project-based learning 

Also known as problem- and challenge-based learning, PBL is a model where students learn by actively engaging in real-world and personally meaningful projects. 

While this model isn’t new to ISTE presenters, what’s astonishing is that it landed on the top, Gagliano said. What it shows is that as educators become more comfortable with various tools, they are focusing more on pedagogy and how to guide students to use tools to practice their personal passions and achieve their goals.

“It’s a level of maturity that ISTE has advocated for for a long time,” she said. "It’s more about the learning strategy than the tool.”

Many of the conference proposals related to PBL are for poster sessions, which means these are from educators eager to show a project their students have taken on. What that shows is that PBL has moved from the theoretical to the practical. These are projects that have been tested in classrooms around the world.

Many of them, Gagliolo says, are related to design thinking. Students are coming up with problems and solutions, prototyping and iterating. 

Diana Fingal is ISTE's director of editorial content.

• artificial intelligence

Research Topics & Ideas: Education

170+ Research Ideas To Fast-Track Your Dissertation, Thesis Or Research Project

I f you’re just starting out exploring education-related topics for your dissertation, thesis or research project, you’ve come to the right place. In this post, we’ll help kickstart your research topic ideation process by providing a hearty list of research topics and ideas , including examples from actual dissertations and theses..

PS – This is just the start…

We know it’s exciting to run through a list of research topics, but please keep in mind that this list is just a starting point . To develop a suitable education-related research topic, you’ll need to identify a clear and convincing research gap , and a viable plan of action to fill that gap.

If this sounds foreign to you, check out our free research topic webinar that explores how to find and refine a high-quality research topic, from scratch. Alternatively, if you’d like hands-on help, consider our 1-on-1 coaching service .

Overview: Education Research Topics

• How to find a research topic (video)
• List of 50+ education-related research topics/ideas
• List of 120+ level-specific research topics 
• Examples of actual dissertation topics in education
• Tips to fast-track your topic ideation (video)
• Where to get extra help

Education-Related Research Topics & Ideas

Below you’ll find a list of education-related research topics and idea kickstarters. These are fairly broad and flexible to various contexts, so keep in mind that you will need to refine them a little. Nevertheless, they should inspire some ideas for your project.

• The impact of school funding on student achievement
• The effects of social and emotional learning on student well-being
• The effects of parental involvement on student behaviour
• The impact of teacher training on student learning
• The impact of classroom design on student learning
• The impact of poverty on education
• The use of student data to inform instruction
• The role of parental involvement in education
• The effects of mindfulness practices in the classroom
• The use of technology in the classroom
• The role of critical thinking in education
• The use of formative and summative assessments in the classroom
• The use of differentiated instruction in the classroom
• The use of gamification in education
• The effects of teacher burnout on student learning
• The impact of school leadership on student achievement
• The effects of teacher diversity on student outcomes
• The role of teacher collaboration in improving student outcomes
• The implementation of blended and online learning
• The effects of teacher accountability on student achievement
• The effects of standardized testing on student learning
• The effects of classroom management on student behaviour
• The effects of school culture on student achievement
• The use of student-centred learning in the classroom
• The impact of teacher-student relationships on student outcomes
• The achievement gap in minority and low-income students
• The use of culturally responsive teaching in the classroom
• The impact of teacher professional development on student learning
• The use of project-based learning in the classroom
• The effects of teacher expectations on student achievement
• The use of adaptive learning technology in the classroom
• The impact of teacher turnover on student learning
• The effects of teacher recruitment and retention on student learning
• The impact of early childhood education on later academic success
• The impact of parental involvement on student engagement
• The use of positive reinforcement in education
• The impact of school climate on student engagement
• The role of STEM education in preparing students for the workforce
• The effects of school choice on student achievement
• The use of technology in the form of online tutoring

Level-Specific Research Topics

Looking for research topics for a specific level of education? We’ve got you covered. Below you can find research topic ideas for primary, secondary and tertiary-level education contexts. Click the relevant level to view the respective list.

Research Topics: Pick An Education Level

Primary education.

• Investigating the effects of peer tutoring on academic achievement in primary school
• Exploring the benefits of mindfulness practices in primary school classrooms
• Examining the effects of different teaching strategies on primary school students’ problem-solving skills
• The use of storytelling as a teaching strategy in primary school literacy instruction
• The role of cultural diversity in promoting tolerance and understanding in primary schools
• The impact of character education programs on moral development in primary school students
• Investigating the use of technology in enhancing primary school mathematics education
• The impact of inclusive curriculum on promoting equity and diversity in primary schools
• The impact of outdoor education programs on environmental awareness in primary school students
• The influence of school climate on student motivation and engagement in primary schools
• Investigating the effects of early literacy interventions on reading comprehension in primary school students
• The impact of parental involvement in school decision-making processes on student achievement in primary schools
• Exploring the benefits of inclusive education for students with special needs in primary schools
• Investigating the effects of teacher-student feedback on academic motivation in primary schools
• The role of technology in developing digital literacy skills in primary school students
• Effective strategies for fostering a growth mindset in primary school students
• Investigating the role of parental support in reducing academic stress in primary school children
• The role of arts education in fostering creativity and self-expression in primary school students
• Examining the effects of early childhood education programs on primary school readiness
• Examining the effects of homework on primary school students’ academic performance
• The role of formative assessment in improving learning outcomes in primary school classrooms
• The impact of teacher-student relationships on academic outcomes in primary school
• Investigating the effects of classroom environment on student behavior and learning outcomes in primary schools
• Investigating the role of creativity and imagination in primary school curriculum
• The impact of nutrition and healthy eating programs on academic performance in primary schools
• The impact of social-emotional learning programs on primary school students’ well-being and academic performance
• The role of parental involvement in academic achievement of primary school children
• Examining the effects of classroom management strategies on student behavior in primary school
• The role of school leadership in creating a positive school climate Exploring the benefits of bilingual education in primary schools
• The effectiveness of project-based learning in developing critical thinking skills in primary school students
• The role of inquiry-based learning in fostering curiosity and critical thinking in primary school students
• The effects of class size on student engagement and achievement in primary schools
• Investigating the effects of recess and physical activity breaks on attention and learning in primary school
• Exploring the benefits of outdoor play in developing gross motor skills in primary school children
• The effects of educational field trips on knowledge retention in primary school students
• Examining the effects of inclusive classroom practices on students’ attitudes towards diversity in primary schools
• The impact of parental involvement in homework on primary school students’ academic achievement
• Investigating the effectiveness of different assessment methods in primary school classrooms
• The influence of physical activity and exercise on cognitive development in primary school children
• Exploring the benefits of cooperative learning in promoting social skills in primary school students

Secondary Education

• Investigating the effects of school discipline policies on student behavior and academic success in secondary education
• The role of social media in enhancing communication and collaboration among secondary school students
• The impact of school leadership on teacher effectiveness and student outcomes in secondary schools
• Investigating the effects of technology integration on teaching and learning in secondary education
• Exploring the benefits of interdisciplinary instruction in promoting critical thinking skills in secondary schools
• The impact of arts education on creativity and self-expression in secondary school students
• The effectiveness of flipped classrooms in promoting student learning in secondary education
• The role of career guidance programs in preparing secondary school students for future employment
• Investigating the effects of student-centered learning approaches on student autonomy and academic success in secondary schools
• The impact of socio-economic factors on educational attainment in secondary education
• Investigating the impact of project-based learning on student engagement and academic achievement in secondary schools
• Investigating the effects of multicultural education on cultural understanding and tolerance in secondary schools
• The influence of standardized testing on teaching practices and student learning in secondary education
• Investigating the effects of classroom management strategies on student behavior and academic engagement in secondary education
• The influence of teacher professional development on instructional practices and student outcomes in secondary schools
• The role of extracurricular activities in promoting holistic development and well-roundedness in secondary school students
• Investigating the effects of blended learning models on student engagement and achievement in secondary education
• The role of physical education in promoting physical health and well-being among secondary school students
• Investigating the effects of gender on academic achievement and career aspirations in secondary education
• Exploring the benefits of multicultural literature in promoting cultural awareness and empathy among secondary school students
• The impact of school counseling services on student mental health and well-being in secondary schools
• Exploring the benefits of vocational education and training in preparing secondary school students for the workforce
• The role of digital literacy in preparing secondary school students for the digital age
• The influence of parental involvement on academic success and well-being of secondary school students
• The impact of social-emotional learning programs on secondary school students’ well-being and academic success
• The role of character education in fostering ethical and responsible behavior in secondary school students
• Examining the effects of digital citizenship education on responsible and ethical technology use among secondary school students
• The impact of parental involvement in school decision-making processes on student outcomes in secondary schools
• The role of educational technology in promoting personalized learning experiences in secondary schools
• The impact of inclusive education on the social and academic outcomes of students with disabilities in secondary schools
• The influence of parental support on academic motivation and achievement in secondary education
• The role of school climate in promoting positive behavior and well-being among secondary school students
• Examining the effects of peer mentoring programs on academic achievement and social-emotional development in secondary schools
• Examining the effects of teacher-student relationships on student motivation and achievement in secondary schools
• Exploring the benefits of service-learning programs in promoting civic engagement among secondary school students
• The impact of educational policies on educational equity and access in secondary education
• Examining the effects of homework on academic achievement and student well-being in secondary education
• Investigating the effects of different assessment methods on student performance in secondary schools
• Examining the effects of single-sex education on academic performance and gender stereotypes in secondary schools
• The role of mentoring programs in supporting the transition from secondary to post-secondary education

Tertiary Education

• The role of student support services in promoting academic success and well-being in higher education
• The impact of internationalization initiatives on students’ intercultural competence and global perspectives in tertiary education
• Investigating the effects of active learning classrooms and learning spaces on student engagement and learning outcomes in tertiary education
• Exploring the benefits of service-learning experiences in fostering civic engagement and social responsibility in higher education
• The influence of learning communities and collaborative learning environments on student academic and social integration in higher education
• Exploring the benefits of undergraduate research experiences in fostering critical thinking and scientific inquiry skills
• Investigating the effects of academic advising and mentoring on student retention and degree completion in higher education
• The role of student engagement and involvement in co-curricular activities on holistic student development in higher education
• The impact of multicultural education on fostering cultural competence and diversity appreciation in higher education
• The role of internships and work-integrated learning experiences in enhancing students’ employability and career outcomes
• Examining the effects of assessment and feedback practices on student learning and academic achievement in tertiary education
• The influence of faculty professional development on instructional practices and student outcomes in tertiary education
• The influence of faculty-student relationships on student success and well-being in tertiary education
• The impact of college transition programs on students’ academic and social adjustment to higher education
• The impact of online learning platforms on student learning outcomes in higher education
• The impact of financial aid and scholarships on access and persistence in higher education
• The influence of student leadership and involvement in extracurricular activities on personal development and campus engagement
• Exploring the benefits of competency-based education in developing job-specific skills in tertiary students
• Examining the effects of flipped classroom models on student learning and retention in higher education
• Exploring the benefits of online collaboration and virtual team projects in developing teamwork skills in tertiary students
• Investigating the effects of diversity and inclusion initiatives on campus climate and student experiences in tertiary education
• The influence of study abroad programs on intercultural competence and global perspectives of college students
• Investigating the effects of peer mentoring and tutoring programs on student retention and academic performance in tertiary education
• Investigating the effectiveness of active learning strategies in promoting student engagement and achievement in tertiary education
• Investigating the effects of blended learning models and hybrid courses on student learning and satisfaction in higher education
• The role of digital literacy and information literacy skills in supporting student success in the digital age
• Investigating the effects of experiential learning opportunities on career readiness and employability of college students
• The impact of e-portfolios on student reflection, self-assessment, and showcasing of learning in higher education
• The role of technology in enhancing collaborative learning experiences in tertiary classrooms
• The impact of research opportunities on undergraduate student engagement and pursuit of advanced degrees
• Examining the effects of competency-based assessment on measuring student learning and achievement in tertiary education
• Examining the effects of interdisciplinary programs and courses on critical thinking and problem-solving skills in college students
• The role of inclusive education and accessibility in promoting equitable learning experiences for diverse student populations
• The role of career counseling and guidance in supporting students’ career decision-making in tertiary education
• The influence of faculty diversity and representation on student success and inclusive learning environments in higher education

Education-Related Dissertations & Theses

While the ideas we’ve presented above are a decent starting point for finding a research topic in education, they are fairly generic and non-specific. So, it helps to look at actual dissertations and theses in the education space to see how this all comes together in practice.

Below, we’ve included a selection of education-related research projects to help refine your thinking. These are actual dissertations and theses, written as part of Master’s and PhD-level programs, so they can provide some useful insight as to what a research topic looks like in practice.

• From Rural to Urban: Education Conditions of Migrant Children in China (Wang, 2019)
• Energy Renovation While Learning English: A Guidebook for Elementary ESL Teachers (Yang, 2019)
• A Reanalyses of Intercorrelational Matrices of Visual and Verbal Learners’ Abilities, Cognitive Styles, and Learning Preferences (Fox, 2020)
• A study of the elementary math program utilized by a mid-Missouri school district (Barabas, 2020)
• Instructor formative assessment practices in virtual learning environments : a posthumanist sociomaterial perspective (Burcks, 2019)
• Higher education students services: a qualitative study of two mid-size universities’ direct exchange programs (Kinde, 2020)
• Exploring editorial leadership : a qualitative study of scholastic journalism advisers teaching leadership in Missouri secondary schools (Lewis, 2020)
• Selling the virtual university: a multimodal discourse analysis of marketing for online learning (Ludwig, 2020)
• Advocacy and accountability in school counselling: assessing the use of data as related to professional self-efficacy (Matthews, 2020)
• The use of an application screening assessment as a predictor of teaching retention at a midwestern, K-12, public school district (Scarbrough, 2020)
• Core values driving sustained elite performance cultures (Beiner, 2020)
• Educative features of upper elementary Eureka math curriculum (Dwiggins, 2020)
• How female principals nurture adult learning opportunities in successful high schools with challenging student demographics (Woodward, 2020)
• The disproportionality of Black Males in Special Education: A Case Study Analysis of Educator Perceptions in a Southeastern Urban High School (McCrae, 2021)

As you can see, these research topics are a lot more focused than the generic topic ideas we presented earlier. So, in order for you to develop a high-quality research topic, you’ll need to get specific and laser-focused on a specific context with specific variables of interest.  In the video below, we explore some other important things you’ll need to consider when crafting your research topic.

Get 1-On-1 Help

If you’re still unsure about how to find a quality research topic within education, check out our Research Topic Kickstarter service, which is the perfect starting point for developing a unique, well-justified research topic.

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How To Choose A Research Topic: 5 Key Criteria

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I am a graduate with two masters. 1) Master of arts in religious studies and 2) Master in education in foundations of education. I intend to do a Ph.D. on my second master’s, however, I need to bring both masters together through my Ph.D. research. can I do something like, ” The contribution of Philosophy of education for a quality religion education in Kenya”? kindly, assist and be free to suggest a similar topic that will bring together the two masters. thanks in advance

Hi, I am an Early childhood trainer as well as a researcher, I need more support on this topic: The impact of early childhood education on later academic success.

I’m a student in upper level secondary school and I need your support in this research topics: “Impact of incorporating project -based learning in teaching English language skills in secondary schools”.

Although research activities and topics should stem from reflection on one’s practice, I found this site valuable as it effectively addressed many issues we have been experiencing as practitioners.

Your style is unique in comparison to other folks I’ve read stuff from. Thanks for posting when you have the opportunity, Guess I will just book mark this site.

that is good idea you are sharing for a lot of researchers. I am one of such an information sucker. I am a chemistry teacher in Ethiopia secondary school. I am MSc degree holder in Analytical chemistry. I need to continue my education by this field. How I can get a full scholar ship?

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250+ Educational Research Topics: Exploring the Path to Educational Excellence

Education is the cornerstone of human development, and its continuous improvement relies on diligent research and exploration. Educational research topics serve as beacons, guiding scholars and practitioners toward innovations that enhance teaching methodologies, student engagement, and overall learning outcomes. These educational research topics delve into the depths of educational systems, dissecting their intricacies to identify effective strategies and interventions. 

From investigating the impact of technology integration on student achievement to exploring the benefits of inclusive education, educational research delves into diverse areas of study. 

In this blog series, we embark on an enlightening journey, shedding light on a myriad of educational research topics. By examining these subjects, we aim to unravel valuable insights that can shape the future of education, fostering an enriching learning experience for all.

How to choose the right educational research topics?

Choosing the right educational research topic requires careful consideration. Here are some steps to help you select a suitable topic:

Identify your interests

Start by reflecting on your own interests within the field of education. What topics or issues capture your attention? Consider areas such as student learning, teaching methods, educational policies, or educational technology.

Conduct a literature review

Read widely in the field of education to familiarize yourself with current research trends and gaps in knowledge. Identify areas where more research is needed or where existing studies have conflicting results.

Consider practical relevance

Think about the practical implications of the research topic. Is it relevant to current educational challenges or issues? Will the findings have the potential to inform and improve educational practice?

Consult with experts

Seek guidance from professors, researchers, or professionals in the field of education. Discuss your potential research topics with them and get their insights and recommendations. They can provide valuable feedback and suggest areas that align with your research goals.

Narrow down the scope

Once you have a general idea, narrow down your topic to make it more focused and manageable. Consider the available resources, time constraints, and the feasibility of conducting research in that specific area.

Define research objectives

Clearly define your research objectives and questions. What specific aspects of the topic do you want to explore? Ensure that your research objectives are specific, measurable, achievable, relevant, and time-bound (SMART).

Research feasibility

Consider the availability of data and resources required to conduct research on your chosen topic. Evaluate whether you have access to relevant literature, data sources, or research participants. Additionally, consider ethical considerations and any potential constraints that may impact your research.

Seek feedback

Share your potential research topic with peers or mentors and seek their feedback. They can provide valuable insights, suggest improvements, or offer alternative perspectives.

Remember, selecting a research topic is an iterative process. It’s essential to be flexible and open to adjustments as you gather more information and refine your research objectives.

15+ College educational research topics

• The effectiveness of flipped classrooms in improving student engagement and learning outcomes.
• The impact of online learning on student achievement and retention rates.
• Strategies for promoting critical thinking skills in college classrooms.
• The influence of active learning techniques on student participation and comprehension.
• The role of project-based learning in developing real-world skills among college students.
• Factors influencing student motivation and engagement in higher education.
• The effectiveness of peer tutoring programs in supporting student learning and success.
• The impact of online discussion forums on student interaction and collaboration.
• The role of feedback and assessment in enhancing student learning and performance.
• The relationship between classroom environment and student academic achievement.
• Strategies for promoting effective communication skills among college students.
• The impact of experiential learning opportunities on student career readiness.
• The effectiveness of blended learning approaches in higher education.
• The role of metacognition in promoting deep learning among college students.
• The impact of diversity and inclusion initiatives on campus climate and student experiences.
• Factors influencing student decision-making in choosing majors and career paths.
• The effectiveness of student support services (e.g., counseling, tutoring, mentoring) in promoting student success.
• The relationship between student engagement in co-curricular activities and academic performance.

15+ Health educational research topics

• The effectiveness of health education programs in reducing risky behaviors among teenagers.
• The impact of school-based physical activity interventions on children’s health and well-being.
• The role of nutrition education in promoting healthy eating habits among adolescents.
• The effectiveness of sex education programs in reducing teen pregnancy rates.
• The impact of mental health education on student well-being and academic performance.
• The effectiveness of mindfulness-based interventions in reducing stress and improving mental health among students.
• The role of health education in preventing substance abuse among young adults.
• The impact of comprehensive sex education on knowledge, attitudes, and behaviors related to sexual health.
• The effectiveness of school-based vaccination programs in improving immunization rates among students.
• The role of physical education in promoting lifelong physical activity and healthy lifestyle habits.
• The impact of school wellness policies on student health outcomes.
• The effectiveness of health literacy interventions in improving health knowledge and behaviors.
• The role of peer education in promoting HIV/AIDS awareness and prevention among young people.
• The impact of nutrition education on reducing childhood obesity rates.
• The effectiveness of school-based bullying prevention programs on student mental health and well-being.
• The role of school nurses in promoting health and providing healthcare services to students.
• The impact of health education on knowledge and behaviors related to hygiene and disease prevention.

15+ Educational research topics on Medicine

• The effectiveness of online medical education in comparison to traditional classroom-based education.
• The impact of simulation-based training on medical students’ clinical skills and confidence.
• Strategies for promoting interprofessional education and collaboration in healthcare settings.
• The role of virtual reality in medical education and its impact on knowledge retention and skill development.
• The use of gamification in medical education to enhance engagement and learning outcomes.
• Investigating the effectiveness of problem-based learning (PBL) in medical schools.
• Assessing the impact of clinical rotations on medical students’ clinical competency and preparedness.
• Exploring the integration of cultural competency training in medical education curricula.
• Investigating the use of e-portfolios for reflective practice and competency assessment in medical education.
• The effectiveness of flipped classroom models in medical education.
• Investigating the impact of longitudinal clerkships on medical students’ professional identity formation.
• Examining the use of standardized patients in medical education and their impact on students’ communication and clinical skills.
• Exploring the role of medical simulation centers in enhancing medical students’ procedural skills and patient safety.
• Investigating the impact of peer teaching and peer-assisted learning in medical education.
• Assessing the effectiveness of team-based learning (TBL) in medical education.
• Investigating the use of virtual patient cases for clinical reasoning and decision-making skills development.
• The role of medical humanities in developing empathy and cultural understanding among medical students.

15+ Educational research topics on Environment

• The effectiveness of environmental education programs in promoting environmental awareness and behavior change among students.
• Investigating the role of schools in fostering environmental literacy and sustainability.
• Assessing the impact of outdoor learning experiences on students’ environmental knowledge and attitudes.
• Exploring the effectiveness of the environmental education curriculum in developing students’ eco-literacy.
• Investigating the relationship between environmental education and pro-environmental behavior in children.
• Examining the impact of environmental education on students’ attitudes towards conservation and environmental stewardship.
• Investigating the role of teachers in promoting environmental education and sustainability practices in schools.
• Assessing the effectiveness of school recycling programs in reducing waste and promoting environmental responsibility.
• Investigating the impact of school gardens on students’ understanding of and connection to the environment.
• Exploring the role of environmental education in fostering climate change awareness and action among students.
• Assessing the effectiveness of environmental education interventions in addressing environmental justice issues.
• Investigating the impact of environmental education on students’ understanding of biodiversity and ecosystem conservation.
• Exploring the use of technology and digital tools in enhancing environmental education and engagement.
• Assessing the effectiveness of environmental education in promoting sustainable consumption and lifestyle choices.
• Investigating the role of environmental education in mitigating environmental pollution and promoting environmental health.

15+ Educational research topics on Sport and Entertainment

• The impact of physical education on academic performance.
• Strategies for promoting physical activity among children and adolescents.
• The role of sports in character development and life skills acquisition.
• The influence of sports participation on self-esteem and self-confidence.
• The effectiveness of coaching styles in enhancing athlete performance and motivation.
• The impact of sport on social integration and community development.
• The role of sports in promoting gender equality and empowerment.
• The relationship between sports and academic engagement among student-athletes.
• The effects of sports specialization on long-term athletic success and well-being.
• The role of sports in promoting mental health and well-being.
• Strategies for preventing and managing sports-related injuries among athletes.
• The impact of sports marketing and sponsorship on consumer behavior.
• The influence of sports media on public perception and participation in sports.
• The role of entertainment education in promoting health and well-being.
• The effects of celebrity endorsements in the entertainment industry.
• The impact of music and dance education on cognitive development and academic achievement.
• The use of virtual reality and augmented reality in sports training and entertainment experiences.
• The effects of video games on cognitive skills and decision-making abilities in sports.

15+ Educational research topics for college students

• The effectiveness of online learning in higher education.
• The impact of student engagement on academic performance in college.
• Strategies for improving critical thinking skills in college students.
• The role of self-regulated learning in college success.
• The effects of student motivation on academic achievement in college.
• The impact of flipped classrooms on student learning in college.
• The effectiveness of peer tutoring programs in college settings.
• The influence of social media on student well-being and academic performance in college.
• The benefits and challenges of incorporating experiential learning in college curricula.
• The relationship between college student stress levels and academic performance.
• The impact of diverse learning environments on student learning outcomes in college.
• Strategies for promoting effective time management skills among college students.
• The role of metacognitive strategies in improving study habits and academic success in college.
• The effectiveness of active learning strategies in college classrooms.
• The influence of cultural competence in teaching and learning in college settings.
• The effects of collaborative learning on student engagement and academic achievement in college.
• The role of feedback and assessment practices in enhancing student learning in college.
• The impact of study abroad programs on intercultural competency development in college students.

15+ Educational research topics on Media and Communication

• The influence of media literacy education on critical thinking skills of students.
• The role of social media in shaping students’ attitudes and behaviors.
• The impact of media use on academic performance and learning outcomes.
• Effective strategies for teaching media literacy in the classroom.
• The use of digital media in promoting creativity and expression among students.
• The effects of media violence on children and adolescents.
• Media representations of diverse cultures and their effects on students’ perceptions.
• The role of media in shaping students’ political and social awareness.
• The influence of the media on body image and self-esteem among students.
• Media literacy and its relationship to digital citizenship.
• The role of media in promoting cultural understanding and tolerance among students.
• The impact of media on students’ language development and communication skills.
• The use of media in promoting active learning and student engagement.
• The effects of social media on students’ social interactions and relationships.
• The role of media in enhancing students’ information literacy skills.
• Media portrayal of gender roles and its impact on students’ attitudes and beliefs.
• The use of multimedia in improving students’ retention and comprehension of educational content.
• The influence of the media on students’ decision-making processes.

15+ Educational research topics on Technology

• The impact of online learning platforms on student engagement and academic performance.
• The effectiveness of educational apps in enhancing early childhood learning.
• The role of virtual reality in improving students’ understanding of complex concepts.
• Investigating the effectiveness of gamification in motivating students to learn.
• The use of artificial intelligence in personalized learning: benefits and challenges.
• Exploring the impact of mobile devices on student collaboration and information sharing.
• Analyzing the effectiveness of online discussion forums in promoting critical thinking skills.
• The use of educational video content for enhancing student comprehension and retention.
• Investigating the role of social media in supporting collaborative learning environments.
• The impact of coding and programming education on students’ problem-solving abilities.
• Assessing the effectiveness of blended learning models in K-12 classrooms.
• The influence of technology on teacher-student relationships and classroom dynamics.
• Investigating the factors influencing teachers’ adoption of technology in the classroom.
• The use of educational robotics in promoting STEM education and computational thinking skills.
• Examining the effects of digital storytelling on students’ creativity and narrative skills.
• The impact of online assessment tools on student performance and feedback effectiveness.
• Investigating the role of artificial intelligence in adaptive learning and personalized instruction.

15+ Educational research topics on Politics

• The influence of political ideologies on civic education.
• The role of political socialization in shaping young citizens’ political attitudes.
• The impact of political party affiliation on educational policies.
• The effectiveness of civic education programs in promoting political participation among youth.
• The influence of political bias in educational materials and its implications for student learning.
• The role of education in fostering democratic values and citizenship.
• The impact of political discourse in the classroom on student engagement and critical thinking.
• The relationship between political knowledge and voting behavior among college students.
• The representation of political issues and controversies in educational curricula.
• The impact of political activism and student protests on educational institutions.
• The influence of political factors on educational funding and resource allocation.
• The role of education in promoting tolerance and understanding in politically divided societies.
• The impact of political polarization on classroom dynamics and educational outcomes.
• The role of educational institutions in promoting political literacy and informed decision-making.
• The effects of political campaign advertising on students’ political attitudes and behavior.
• The impact of political decentralization on educational governance and policies.
• The role of education in addressing social justice issues and promoting political equality.

15+ Educational research topics on Thesis

• The effectiveness of project-based learning in enhancing student engagement and achievement.
• The impact of teacher-student relationships on student motivation and academic performance.
• The role of parental involvement in students’ academic success.
• The influence of socioeconomic status on educational opportunities and outcomes.
• The effects of inclusive education on students with disabilities.
• The effectiveness of differentiated instruction in meeting the diverse learning needs of students.
• The impact of early childhood education on long-term academic and social development.
• The role of assessment and feedback in promoting student learning and achievement.
• The effectiveness of online learning compared to traditional classroom instruction.
• The relationship between school climate and student well-being and academic success.
• The impact of teacher professional development on instructional practices and student outcomes.
• The effectiveness of peer tutoring in enhancing student learning and academic performance.
• The influence of cultural diversity on classroom dynamics and student learning experiences.
• The effects of homework on student achievement and overall well-being.
• The role of educational leadership in school improvement and student success.
• The impact of social-emotional learning programs on students’ social skills and emotional well-being.
• The effectiveness of educational interventions for students with learning disabilities.
• The relationship between teacher beliefs and instructional practices in the classroom.
• The role of school counseling in supporting students’ academic and personal development.
• The effects of school-based nutrition programs on students’ health and academic performance.

15+ Psychology Educational research topics

• The influence of the classroom environment on student motivation and learning.
• The effects of teacher-student relationships on academic achievement and social-emotional development.
• The impact of mindfulness-based interventions on student well-being and academic performance.
• Gender differences in academic achievement and career choices in STEM fields.
• The role of self-efficacy in student learning and academic success.
• The effects of bullying on students’ psychological well-being and academic performance.
• The relationship between parental involvement and student achievement.
• The effectiveness of different teaching strategies in promoting critical thinking skills.
• The impact of peer tutoring on student learning outcomes.
• The role of motivation in academic procrastination among students.
• The effects of classroom diversity on intergroup relations and academic achievement.
• The relationship between learning styles and academic performance.
• The influence of educational technology on cognitive processes and learning outcomes.
• The effects of stress on students’ cognitive functioning and academic performance.
• The role of emotional intelligence in student success and well-being.
• The impact of extracurricular activities on students’ social and emotional development.
• The effectiveness of positive reinforcement techniques in classroom management and student behavior.

15+ Educational research topics on Sociology

• The influence of social class on educational attainment.
• The impact of cultural diversity in the classroom on student learning.
• The role of gender in educational achievement and career choices.
• Examining the effects of racial and ethnic segregation in schools.
• Exploring the relationship between teacher expectations and student performance.
• Investigating the effects of social capital on educational outcomes.
• Analyzing the impact of poverty on educational opportunities.
• Examining the role of social networks in students’ academic success.
• The influence of family background and socioeconomic status on educational outcomes.
• Exploring the effects of tracking and ability grouping in schools.
• Investigating the impact of school discipline policies on marginalized student populations.
• Examining the role of socialization in shaping students’ attitudes and behaviors.
• Analyzing the effects of peer influence on academic performance and engagement.
• Investigating the role of teacher-student relationships in student motivation and achievement.
• Exploring the effects of school climate and culture on student well-being and learning.
• Analyzing the impact of educational policies on educational equity and social justice.
• Investigating the relationship between educational institutions and social inequality.
• Exploring the effects of cultural capital on educational access and success.

15+ Educational research topics on Culture

• The influence of cultural diversity on student achievement in multicultural classrooms.
• The role of cultural sensitivity in teacher-student interactions and its impact on student learning outcomes.
• Exploring the relationship between cultural background and student engagement in the classroom.
• Investigating the effects of culturally responsive teaching practices on academic performance.
• Examining the impact of culturally relevant curriculum on student motivation and self-esteem.
• The role of cultural values in shaping parental involvement in education.
• Exploring the impact of culturally inclusive pedagogy on student attitudes towards diversity.
• Investigating the challenges and benefits of integrating culturally diverse literature in the classroom.
• The influence of cultural identity on student resilience and academic success.
• Examining the impact of cultural competency training on teachers’ ability to meet the needs of culturally diverse students.
• Investigating the role of cultural factors in shaping educational policies and practices.
• The impact of cultural integration programs on social cohesion and intercultural understanding in schools.
• Exploring the relationship between cultural competence of school leaders and the school climate.
• Investigating the influence of cultural stereotypes on teacher expectations and student outcomes.
• The role of cultural capital in educational achievement and attainment.
• Examining the impact of multicultural education on reducing prejudice and discrimination among students.
• Investigating the effects of cultural immersion experiences on students’ understanding of global citizenship.

15+ Leadership  Educational research topics

• The role of transformational leadership in improving student achievement.
• Exploring the relationship between instructional leadership and teacher effectiveness.
• Investigating the impact of distributed leadership on school culture and climate.
• Examining the influence of ethical leadership on organizational trust in educational institutions.
• The role of instructional coaching in supporting teacher leadership and professional development.
• Investigating the leadership practices that promote teacher collaboration and collective efficacy.
• Exploring the impact of principal leadership on teacher job satisfaction and retention.
• Investigating the effectiveness of distributed leadership in facilitating educational change.
• The role of servant leadership in promoting a positive school climate and student well-being.
• Exploring the relationship between instructional leadership and student engagement.
• Investigating the impact of instructional leadership on the implementation of evidence-based practices.
• The role of leadership in fostering parent and community engagement in schools.
• Examining the effectiveness of instructional leadership in promoting educational equity and closing achievement gaps.
• Investigating the leadership practices that facilitate successful school turnaround efforts.
• Exploring the impact of leadership development programs on leadership capacity in educational settings.
• Investigating the relationship between leadership styles and teacher motivation and job satisfaction.
• The role of distributed leadership in promoting instructional improvement and professional learning communities.

15+ Educational research topics for For Middle School

• The effectiveness of project-based learning in middle school classrooms.
• The impact of differentiated instruction on student achievement in mathematics.
• The role of physical activity and its influence on academic performance.
• The benefits of incorporating educational games in middle school curriculum.
• The effects of peer tutoring on student engagement and learning outcomes.
• The relationship between parental involvement and academic success in middle school.
• The impact of social-emotional learning programs on student behavior and well-being.
• The effectiveness of flipped classrooms in middle school science education.
• The influence of arts education on creativity and critical thinking skills.
• The role of mindfulness techniques in improving attention and concentration in middle school students.
• The benefits of incorporating multicultural literature in middle school English language arts.
• The impact of inquiry-based learning on student motivation and scientific inquiry skills.
• The effectiveness of cooperative learning strategies in middle school social studies classrooms.
• The relationship between school climate and student academic performance.
• The impact of technology integration on middle school students’ digital literacy skills.
• The benefits of incorporating financial literacy education in middle school curriculum.
• The role of teacher-student relationships in promoting a positive classroom environment.

15+ Educational research topics for For High School

• The effects of implementing project-based learning on student engagement and academic performance.
• The impact of flipped classrooms on student learning and retention of content.
• The role of teacher-student relationships in promoting academic success and well-being in high school.
• Investigating the effectiveness of different instructional methods (e.g., lecture, group work, online learning) in high school classrooms.
• Examining the influence of parental involvement on high school students’ academic achievement.
• The relationship between extracurricular activities and academic performance in high school.
• Exploring the effectiveness of different assessment methods (e.g., tests, projects, portfolios) in measuring high school students’ learning outcomes.
• Investigating the impact of integrating social-emotional learning (SEL) programs in high school curriculum on students’ well-being and academic achievement.
• The effects of incorporating technology in high school classrooms on students’ motivation and learning outcomes.
• Investigating the factors influencing high school students’ career decision-making and exploring effective career guidance approaches.
• Examining the impact of different teaching strategies on high school students’ critical thinking skills.
• Exploring the role of student voice and participation in decision-making processes in high schools.
• Investigating the effects of school climate and culture on high school students’ academic performance and well-being.
• The influence of parental expectations and aspirations on high school students’ educational attainment.
• Examining the impact of personalized learning approaches on high school students’ achievement and motivation.
• Investigating the effects of teacher professional development programs on instructional practices and student outcomes in high schools.
• The relationship between high school students’ self-regulation skills and academic achievement.

Tips to write educational research topics

Here are some tips to help you write effective educational research topics:

Identify a specific research problem: Start by identifying a specific issue or problem within the field of education that you want to investigate. Narrow down your topic to a specific aspect or area that interests you.

Be clear and concise: Formulate your research topic in a clear and concise manner. Avoid using vague or general terms. Make sure your topic is specific enough to guide your research and provide focus.

Consider the significance and relevance: Ensure that your research topic is significant and relevant to the field of education. Think about the potential impact and contribution of your research to the existing knowledge base.

Conduct a literature review: Before finalizing your research topic, conduct a literature review to familiarize yourself with the existing research and identify any gaps or areas for further investigation. This will help you refine your topic and ensure its originality.

Consult with experts: Seek feedback from your professors, advisors, or other experts in the field of education. They can provide valuable insights and suggestions for refining your research topic.

Formulate research questions or objectives: Once you have identified your research problem, formulate specific research questions or objectives that you aim to address in your study. These will guide your research and provide a clear focus.

Consider feasibility: Evaluate the feasibility of your research topic in terms of available resources, data availability, and ethical considerations. Make sure your topic is manageable within the given constraints.

Stay flexible: Keep in mind that your research topic may evolve as you delve deeper into the literature and conduct your research. Be open to adjustments and modifications along the way to ensure that your topic remains relevant and aligned with your research goals.

By following these tips, you can develop a strong and focused educational research topic that will serve as the foundation for your study.

In conclusion, educational research topics play a crucial role in advancing our understanding of various aspects of education. These topics provide opportunities to explore innovative teaching methods, evaluate the impact of interventions, and investigate factors that influence student learning and well-being. 

By conducting research in high school settings, we can identify effective instructional strategies, examine the role of technology, and understand the importance of student-teacher relationships. Additionally, research topics in education shed light on the significance of parental involvement, extracurricular activities, and social-emotional learning in promoting student success. 

Through rigorous investigation, educational research topics contribute to evidence-based practices that can enhance educational outcomes and create a positive impact on the lives of high school students.

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15 EdTech research papers that we share all the time

We hope you saw our recent blog post responding to questions we often get about interesting large-scale EdTech initiatives. Another question we are often asked is: “What EdTech research should I know about?” 

As Sara’s blog post explains, one of the Hub’s core spheres of work is research, so we ourselves are very interested in the answer to this question. Katy’s latest blog post explains how the Hub’s research programme is addressing this question through a literature review to create a foundation for further research.  While the literature review is in progress, we thought we would share an initial list of EdTech papers that we often reach for. At the Hub we are fortunate enough to have authors of several papers on this list as members of our team. 

All papers on this list are linked to a record in the EdTech Hub’s growing document library – where you will find the citation and source to the full text. This library is currently an alpha version. This means it’s the first version of the service and we’re testing how it works for you. If you have any feedback or find any issues with our evidence library, please get in touch.

Tablet use in schools: a critical review of the evidence for learning outcomes

This critical review by our own Bjӧrn Haßler, Sara Hennessy, and Louis Major has been cited over 200 times since it was published in 2016. It examines evidence from 23 studies on tablet use at the primary and secondary school levels. It discusses the fragmented nature of the knowledge base and limited rigorous evidence on tablet use in education. 

Haßler, B., Major, L., & Hennessy, S. (2016) Tablet use in schools: a critical review of the evidence for learning outcomes . Journal of Computer Assisted Learning, 32(2), 139-156.

The impact and reach of MOOCs: a developing countries’ perspective

This article challenges the narrative that Massive Open Online Courses (MOOCs) are a solution to low and middle-income countries’ (LMIC) lack of access to education, examining the features of MOOCs from their perspectives. It argues that a complicated set of conditions, including access, language, and computer literacy, among others, challenge the viability of MOOCs as a solution for populations in LMIC. 

Liyanagunawardena, T., Williams, S., & Adams, A. (2013) The impact and reach of MOOCs: a developing countries’ perspective. eLearning Papers , 33(33).

Technology and education – Why it’s crucial to be critical

A thought-provoking read, Selwyn’s book chapter argues that technology and education should continuously be viewed through a critical lens. It points to how the use of technology in education is entwined with issues of inequality, domination, and exploitation, and offers suggestions for how to grapple with these issues. 

Selwyn, N. (2015) Technology and education – Why it’s crucial to be critical. In S. Bulfin, N. F. Johnson & L. Rowan (Eds.), Critical Perspectives on Technology and Education (pp. 245-255). Basingstoke and St. Martins, New York: Palgrave Macmillan.

Moving beyond the predictable failure of Ed-Tech initiatives

This article argues that a narrow vision of digital technology, which ignores the complexity of education, is becoming an obstacle to improvement and transformation of education. Specifically, the authors critically reflect on common approaches to introducing digital technology in education under the guise of promoting equality and digital inclusion.

Sancho-Gil, J.M., Rivera-Vargas, P. & Miño-Puigcercós, R. (2019) Moving beyond the predictable failure of Ed-Tech initiatives. Learning, Media and Technology , early view. DOI: 10.1080/17439884.2019.1666873

Synergies Between the Principles for Digital Development and Four Case Studies

The REAL Centre’s report, which includes contributions from the Hub’s own ranks, is one of the few we’ve seen that provides an in-depth exploration of how the Principles for Digital Development apply to the education sector. It uses four case studies on the work of the Aga Khan Foundation, Camfed, the Punjab Education and Technology Board, and the Varkey Foundation. 

REAL Centre (2018). Synergies Between the Principles for Digital Development and Four Case Studies. Cambridge, UK: Research for Equitable Access and Learning (REAL) Centre, Faculty of Education, University of Cambridge .

Education technology map: guidance document

This report by the Hub’s Jigsaw colleagues accompanies a comprehensive map of 401 resources with evidence on the use of EdTech in low-resource environments. The evidence mapping reviews certain criteria of the resources from sources such as journal indices, online research, evaluation repositories, and resource centres and experts. The type of criteria it maps include: the geographical location of study, outcomes studied, and type of EdTech introduced.  While not inclusive of the latest EdTech research and evidence (from 2016 to the present), this mapping represents a strong starting point to understand what we know about EdTech as well as the characteristics of existing evidence.

Muyoya, C., Brugha, M., Hollow, D. (2016). Education technology map: guidance document. Jigsaw, United Kingdom.

Scaling Access & Impact: Realizing the Power of EdTech

Commissioned by Omidyar Network and written by RTI, this executive summary (with the full report expected soon) is a useful examination of the factors needed to enable, scale, and sustain equitable EdTech on a national basis. Four country reports on Chile, China, Indonesia, and the United States examine at-scale access and use of EdTech across a broad spectrum of students. It also provides a framework for an ecosystem that will allow EdTech to be equitable and able to be scaled.  

S caling Access & Impact: Realizing the Power of EdTech (Executive Summary). Omidyar Network.

Perspectives on Technology, Resources and Learning – Productive Classroom Practices, Effective Teacher Professional Development

If you are interested in how technology can be used in the classroom and to support teacher professional development, this report by the Hub’s Björn Haßler and members of the Faculty of Education at the University of Cambridge emphasizes the key point that technology should be seen as complementary to, rather than as a replacement for, teachers. As the authors put it, “the teacher and teacher education are central for the successful integration of digital technology into the classroom.” The report is also accompanied by a toolkit (linked below) with questions that can be used to interrogate EdTech interventions.

Haßler, B., Major, L., Warwick, P., Watson, S., Hennessy, S., & Nichol, B. (2016). Perspectives on Technology, Resources and Learning – Productive Classroom Practices, Effective Teacher Professional Development . Faculty of Education, University of Cambridge. DOI:10.5281/zenodo.2626440

Haßler, B., Major, L., Warwick, P., Watson, S., Hennessy, S., & Nichol, B. (2016). A short guide on the use of technology in learning: Perspectives and Toolkit for Discussion . Faculty of Education, University of Cambridge. DOI:10.5281/zenodo.2626660

Teacher Factors Influencing Classroom Use of ICT in Sub-Saharan Africa

In this paper, the Hub’s Sara Hennessy and co-authors synthesise literature on teachers’ use of ICT, with a focus on using ICT to improve the quality of teaching and learning. They find evidence to support the integration of ICT into subject learning, instead of treating it as a discrete subject, and to provide relevant preparation to teachers during pre- and in-service training to use ICT in classrooms. Although this evidence has been available for a decade, the implications of the paper’s findings are still not often reflected in practice.  

Hennessy, S., Harrison, D., & Wamakote, L. (2010). Teacher Factors Influencing Classroom Use of ICT in Sub-Saharan Africa. Itupale Online Journal of African Studies, 2, 39- 54.

Information and Communications Technologies in Secondary Education in Sub-Saharan Africa: Policies, Practices, Trends, and Recommendations

This landscape review by Burns and co-authors offers a useful descriptive starting point for understanding technology use in sub-Saharan Africa in secondary education, including the policy environment, key actors, promising practices, challenges, trends, and opportunities. The report includes four case studies on South Africa, Mauritius, Botswana, and Cape Verde. 

Burns, M., Santally, M. I., Halkhoree, R., Sungkur, K. R., Juggurnath, B., Rajabalee, Y. B. (2019) Information and Communications Technologies in Secondary Education in Sub-Saharan Africa: Policies, Practices, Trends, and Recommendations. Mastercard Foundation.

The influence of infrastructure, training, content and communication on the success of NEPAD’S pilot e-Schools in Kenya

This study examines the impact of training teachers to use ICT, on the success of NEPAD’S e-Schools. The e-Schools objectives were to impart ICT skills to students, enhance teachers’ capacities through the use of ICT in teaching, improve school management and increase access to education. Unlike other studies on the subject, Nyawoga, Ocholla, and Mutula crucially recognise that while teachers received technical ICT training, they did not receive training on pedagogies for integrating ICT in teaching and learning. 

Nyagowa, H. O., Ocholla, D. N., & Mutula, S. M. (2014). T he influence of infrastructure, training, content and communication on the success of NEPAD’S pilot e-Schools in Kenya . Information Development, 30(3), 235-246 .

Education in Conflict and Crisis: How Can Technology Make a Difference?

This landscape review identifies ICT projects supporting education in conflict and crisis settings. It finds that most of the projects operate in post-conflict settings and focus on the long-term development of such places. The report hones in on major thematic areas of professional development and student learning. It also presents directions for further research, including considerations of conflict sensitivity and inclusion in the use of ICT. 

Dahya, N. (2016) Education in Conflict and Crisis: How Can Technology Make a Difference? A Landscape Review . GIZ.

Does technology improve reading outcomes? Comparing the effectiveness and cost-effectiveness of ICT interventions for early-grade reading in Kenya

This randomized controlled trial contributes to the limited evidence base on the effects of different types of ICT investments on learning outcomes. All groups participated in the ‘base’ initiative which focused on training teachers and headteachers in literacy and numeracy, books for every student, teacher guides that matched closely with the content of the students’ book, and modest ICT intervention with tablets provided only for government-funded instructional supervisors. The RCT then compared outcomes from three interventions:  (1) base program plus e-readers for students, (2) base program plus tablets for teachers, and (3) the control group who were treated only with the base program. The paper finds that the classroom-level ICT investments do not improve literacy outcomes significantly more than the base program alone, and that cost considerations are crucial in selecting ICT investments in education.

Piper, B., Zuilkowski, S., Kwayumba, D., & Strigel, C. (2016). Does technology improve reading outcomes? Comparing the effectiveness and cost-effectiveness of ICT interventions for early-grade reading in Kenya. International Journal of Educational Development (49), 204-214.

[FORTHCOMING] Technology in education in low-income countries: Problem analysis and focus of the EdTech Hub’s work

Informed by the research cited in this list (and much more) – the Hub will soon publish a problem analysis. It will define our focus and the scope of our work. To give a taste of what is to come, the problem analysis will explain why we will prioritise teachers, marginalised groups, and use a systems lens. It will also explore emergent challenges in EdTech research, design, and implementation.

EdTech Hub. (2020). Technology in education in low-income countries: Problem analysis and focus of the Hub’s work (EdTech Hub Working Paper No. 5). London, UK. https://doi.org/10.5281/zenodo.3377829

It is important to note that we have included a mix of research types at varying levels of rigour, from landscape reviews and evidence maps, to critical reviews and case studies. Our list is not comprehensive and has some obvious limitations (they are all in English, for one). If you are interested in exploring more papers and evidence, don’t forget to check out the EdTech Hub’s growing document library , where you will find not just links to the full papers in this list but over 200 resources, with more being added each day.

What interesting EdTech research have you recently read, and what did you take away from it? Let us know in the comments section or on Twitter at @GlobalEdTechHub and use #EdTechHub

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Educational research topics: navigating the path to knowledge and innovation.

Educational research is the cornerstone of progress in the field of education. It catalyzes change, informing pedagogical practices, shaping policies, and addressing the diverse needs of learners. The exploration of educational research topics is a journey into the intricacies of teaching and learning, revealing insights that contribute to the ongoing evolution of educational systems worldwide.

The Significance of Educational Research

Educational research is a systematic inquiry into various aspects of the educational process. It aims to deepen our understanding of how students learn, the effectiveness of teaching methods, and the impact of educational policies. This knowledge, derived from rigorous research, empowers educators, policymakers, and stakeholders to make informed decisions that shape the trajectory of education.

Here are 10 Diverse Educational Research Topics:

1. technology integration in education.

Exploring the impact of digital tools, online platforms, and interactive technologies on teaching and learning. Investigating the effectiveness of blended learning models and the implications of artificial intelligence in education.

2. Inclusive Education

Examining strategies for creating inclusive classrooms that cater to students with diverse learning needs. Assessing the impact of inclusive practices on student achievement and well-being.

3. Student Motivation and Engagement

Educational Research Topics helps Investigate factors that influence student motivation and engagement in the learning process. Exploring the role of intrinsic and extrinsic motivators in fostering a positive learning environment.

4. Assessment and Evaluation Practices

Examining the effectiveness of traditional and alternative assessment methods in gauging student understanding. Investigating strategies for fair and equitable evaluation, considering diverse learning styles.

5 . Teacher Professional Development

Researching the impact of professional development programs on teacher effectiveness. Exploring innovative approaches to continuous learning for educators.

6. Early Childhood Education

Investigating the long-term effects of early childhood education on cognitive and social development. Exploring effective teaching methods for young learners.

7 . Social and Emotional Learning (SEL)

Examining the role of SEL in enhancing student well-being and academic success. Investigating the impact of SEL programs on school climate and community dynamics.

8 . Online and Distance Learning

Exploring the challenges and opportunities associated with online and distance learning. Assessing the effectiveness of virtual classrooms and the accessibility of online education. Researching various Educational Research Topics may result in more understanding

9. Educational Leadership and Administration

Investigating the qualities and practices of effective educational leaders. Exploring the impact of leadership on school culture, teacher morale, and student outcomes.

10 . Global and Comparative Education

Comparing educational systems across different countries and cultures. Examining the role of education in addressing global challenges and fostering international collaboration.

Emerging Trends in Educational Research

1 . neuroeducation.

Investigating the intersection of neuroscience and education to understand how the brain learns. Exploring the implications of neuroscientific findings for instructional practices.

2. Environmental Education

Examining the integration of environmental education into curricula. Investigating the Educational Research Topics like the impact of eco-friendly practices and outdoor learning on students’ environmental consciousness.

3 . Data-Driven Decision Making

Exploring the use of data analytics to inform educational decision-making. Assessing the ethical considerations of data use in education.

4 . Equity and Inclusion

Research strategies to address educational disparities based on race, socio-economic status, and other factors. Investigating the impact of inclusive practices on overall student success.

Challenges and Opportunities in Educational Research

Challenges:.

• Funding Constraints: Limited financial resources can hinder the scope and depth of educational research initiatives.
• Ethical Considerations: Ensuring ethical research practices, especially with vulnerable populations, presents ongoing challenges.
• Implementation Gap : Bridging the divide between research findings and practical implementation in classrooms remains a persistent challenge.

Opportunities:

• Interdisciplinary Collaboration: Opportunities for collaboration between educators, researchers, and experts from diverse fields can lead to holistic insights.
• Technology Integration : Leveraging technological advancements can enhance data collection, analysis, and the dissemination of research findings.
• Global Collaboration: International collaboration provides opportunities to study educational systems in varied cultural contexts, fostering a broader understanding of effective practices.

Educational research is a dynamic and multifaceted endeavor, delving into an array of topics that collectively shape the future of education. From the integration of technology to the exploration of global education systems, researchers play a pivotal role in advancing our understanding of effective teaching and learning practices.

As we navigate the vast landscape of educational research topics, it becomes clear that the quest for knowledge is both a challenge and an opportunity. The challenges of funding constraints, ethical considerations, and the implementation gap are met with opportunities for interdisciplinary collaboration, technological integration, and global cooperation.

In essence, educational research topics are the driving force behind innovation in education. It empowers educators with evidence-based practices, guides policymakers in shaping effective policies, and ultimately enriches the learning experiences of students worldwide. As researchers continue to explore new frontiers and address persistent challenges, the collective efforts in educational research pave the way for a more inclusive, equitable, and transformative education system.

Also Read: Multiple Intelligences: What Does the Research Say?

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11 Most Important Education Trends for 2024 and Beyond

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American academic Allan Bloom said, "Education is the movement from darkness to light."

In 2024, educators are seeing that movement accelerate at lightspeed, fueled by ever-evolving technology. In this blog post, we look at the biggest education trends and the technology that makes them possible. From artificial intelligence to AR and big data learning analytics, we dissect the current trends in education with insights from expert professionals, world forums, and industry reports. Read on to see how these emerging trends find their place anywhere, from smartphones to smart classrooms.

Education trend 1: Artificial intelligence

Far more than just another "cool" trend in the education sector, AI is a life-changer — especially for kids in remote areas, poorer schools, or with learning disabilities.

Even large-scale organizations like UNICEF are using AI tools to help deliver high-quality education to students everywhere. Advanced AI algorithms and machine learning models can:

• Personalize learning plans so everyone is always challenged at the right level.
• Free teachers from grading and paperwork, giving them more time to focus on students individually.

A critical aspect to digital learning is internet access. That's why innovations like Starlink could revolutionize connectivity and mobile education in developing countries.

AI strategies are also being tested and implemented at the world's top schools, colleges, and universities. Some faculty members clone themselves to create video lectures in minutes. Others teach through innovative videos where they interact with AI avatars (digital doubles of real actors) that play the student's role:

As educational technologies improve and educational trends evolve, experts and big organizations are excited about how artificial intelligence can transform education.

The World Economic Forum analyzed AI's impact on education in its latest report in 2024, " Shaping the Future of Learning: The Role of AI in Education 4.0. "

The impact of AI on education:

• Tailors the educational content and pacing to individual student needs.
• Allows teachers to devote more time to teaching and student interaction.
• Improves access to education for students with disabilities and language barriers.

Education trend 2: Interactivity

Education through interactivity uses quizzes, simulations, and collaborative projects in online learning environments. An online platform with interactive videos , particularly one with built-in quizzes that provide real-time, instant feedback, is super-effective and makes learning more dynamic.

Interactivity typically tests and redirects, adapting the learning path on the spot. Students don't need to wait for a teacher to grade them, so they can go through materials at their own pace and accelerate learning.

In a recent conversation with Michael Milken, Chairman of the Milken Institute, Elon Musk said that children don't need a teacher in front of a board. Instead, he advocated for compelling, interactive learning experiences that truly engage and help them learn actively:

The impact of interactivity on education:

• Allows students to participate in their learning process actively.
• Encourages collaboration and communication.
• Interactive videos make lessons more adaptive and personalized.

Education trend 3: Gamification

As every kindergarten teacher knows, games have always been used to teach. Today, they're particularly effective because kids are so much more exposed to dopamine hits while playing games on their parent's devices. On a biological level, dopamine shapes learning and is an excellent way to improve the effectiveness of learning programs.

Students demand more interactive and gamified education. By 2026, the game-based learning global market will hit a compound annual growth rate of 21.9% and reach a revenue of $29.7 billion.

Gamified teaching strategies apply game-design elements and principles in educational contexts. Like any game, they boost motivation using points, badges, leaderboards, and challenges — all the things that typically get you hooked when playing digital games.

In a recent Stanford report on "How technology is reinventing education," Dan Schwartz, dean of Stanford Graduate School of Education and professor of educational technology, said gamification tries to make " chocolate-covered broccoli. " In other words, it uses art and rewards to add some fun to speeded-response tasks with single-answer, factual questions.

Impact of gamification on education:

• Increases student motivation and engagement.
• Subtly encourages continuous learning and improvement.
• Promotes healthy competition among students.

Education trend 4: Mobile learning

In 2024, 60.67% of website traffic is mobile, and the overwhelming majority of internet users (92.3%) will consider going online through their smartphones instead of other devices.

Mobile learning, or m-learning, refers to using smartphones, tablets, and laptops to access learning resources and environments anywhere and anytime. It's highly attractive for everyone, from kids with smartphones to grown-ups chugging away at corporate training on the go.

Impact of mobile learning on education:

• Allows students to learn from anywhere.
• Facilitates just-in-time learning.
• Encourages a more personalized learning experience.

Education trend 5: Adaptive learning

Adaptive learning uses technology, often integrated with learning management systems, to customize each student's learning experience. It tracks student progress and adjusts what they learn next, keeping things challenging and effective.

In workplace training for non-negotiable skills such as compliance training and health and safety certification, adaptive learning is used to ensure comprehension and skill acquisition.

According to the Adaptive Learning Industry Report 2024-2030, the top three biggest adopters of adaptive learning are K-12, Higher Education, and Corporate institutions.

Impact of adaptive learning on education:

• Makes learning more fun by tweaking the difficulty and type of content.
• Welcomes all kinds of learners, making sure they get material that fits just right.
• Boosts memory and reduces stress by giving quick feedback and help.

Education trend 6: Digital citizenship soft skills

The internet is a giant playground, but it can be dangerous to navigate without proper skills. Digital citizenship teaches internet users how to manage their digital footprints, respect intellectual property, spot credible content from fake news, and even interact nicely in online communities.

This shift requires schools and institutions to prioritize digital literacy in their curriculums. These soft skills prepare students to be informed, responsible, and awesome digital citizens.

On Feb 13, 2023, the Digital Citizenship and Media Literacy Act was introduced in the Senate.

Richard Culatta, CEO of ISTE and ASCD and internationally recognized learning designer, says , " Digital citizenship is about far more than just helping kids be safe online; it's about empowering them to use technology to solve real-world problems, to know how to balance their time between a variety of online and offline activities, to be curious learners and to use digital tools to deepen their relationships with their family and friends. "

Impact of digital citizenship skills on education:

• Promote safe and responsible use of tech inside and outside of educational institutions.
• Improve critical thinking and discernment.
• Prep students for the digital economy and online learning.

Education trend 7: Augmented reality

Augmented reality overlays digital information in the real world, making the learning environment more interactive and immersive. Students can see and interact with 3D models and simulations that pop into their physical surroundings using devices like smartphones, tablets, or AR glasses.

The latest advancements in this technology make AR experiences even more accessible and engaging for students. Check out this video by Lestute on how AR can be used in education:

The more this tech evolves, the bigger its impact will be, especially in the medical and engineering fields — imagine if instructors could teach someone the steps to dismantling a bomb using AR.

But AR might as well work for language learning — a student studying Spanish can point their AR device at a chair, and the Spanish word "silla" will appear along with pronunciation guides and usage examples. This immediate, context-based learning helps with faster, more intuitive language acquisition.

Impact of AR on education:

• Transforms traditional teaching methods into interactive, 3D experiences.
• Encourages experiential learning.
• Breaks down geographical and physical barriers in education.

Education trend 8: Blended learning

This type of learning mixes learning online with spending time in a traditional classroom. Teachers and students meet in person, but students also have some freedom to decide when, where, and how they want to learn.

This approach helps foster conversations between students and teachers, both in person and online. Equally important, it offers students greater flexibility, allowing them to balance their studies with other commitments more effectively.

For instance, consider a university biology class where the professor combines classic face-to-face teaching with online videos and virtual labs. Students can dive into interactive content at their own pace, try out virtual experiments, and chat in online forums.

Even though some learning happens online, the blended formula keeps education engaging and teachers central. It even fosters a sense of belonging, as you can discover from this insightful TEDx talk:

Impact of blended learning on education:

• Offers flexibility in how and when students learn, accommodating different learning styles and schedules.
• Enhances student autonomy and responsibility in managing their learning.
• Provides more opportunities for interactive and engaging education.

Education trend 9: Experiential learning

Experiential learning requires institutions to facilitate internships, workshops, and simulations where students are fully involved and solve real problems. It's hands-on and interactive and helps develop practical and soft skills for future careers, including crucial leadership skills.

Experiential learning leads students to pick up practical knowledge and make tough decisions in their real jobs later on. The stakes are high, especially as children become absorbed by technology, and educators must shift them from just consuming online content to doing something actively.

Adrienne Alexander, an educational revolutionary, has some powerful thoughts on " The education revolution we need to have: "

Impact of experiential learning on education:

• Deepens understanding by engaging students in practical situations.
• Develops critical life skills like problem-solving, teamwork, and decision-making.
• Prepares students for professional careers with relevant, hands-on experience.

Education trend 10: STEAM education

Expanding on the traditional STEM curriculum (Science, Technology, Engineering, and Mathematics), STEAM incorporates Art. So, it promotes creative and innovative thinking and encourages students to approach challenges from multiple perspectives that create innovative solutions.

While AI and digital citizenship skills are great, creativity is now the predictor of success. Being able to think differently is more important than ever, which is why STEAM education is so powerful and will only continue to grow in importance:

Impact of STEAM on education:

• Promotes well-rounded intellectual development.
• Enhances innovation and creativity.
• Prepares students for a diverse range of career paths.

Education trend 11: Big data learning analytics

Here, we have two education trends in one: big data will get bigger, and learning analytics will be a powerful tool. Schools are using big data learning analytics to understand students better. This understanding enables them to adopt data-driven strategies for learning optimization in the classroom and online.

Teachers and educators rely on AI to collect, analyze, and report large volumes of data about learners and their contexts. Then, they identify patterns and insights that help them design courses, decide on policies, and offer individual student support.

As documented in various research papers, like this one from the Journal of Asynchronous Learning Network, analytics are critical and effective in higher education.

Impact of big data learning analytics on education:

• Enhances decision-making in educational programs.
• Supports personalized learning and interventions.
• Enables continuous monitoring and adjustment of teaching methods.

Supercharge your education program with engaging AI videos

Video can bring complex concepts to life like no other tool. It's incredibly effective at attracting learners and making information stick.

In 2024 and beyond, creating videos for hard and soft skills training or really any type of educational content will be easier than ever, thanks to generative AI. With Gen AI, one can turn plain text into video content in minutes.

Try this free AI video generator and discover the endless ways you can use videos to enhance learning and keep up with the emerging trends in education.

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Top Education Research Topics and Ideas for Students: Find Inspiration for Your Paper

Updated 11 Mar 2024

Education research plays a crucial role in advancing our understanding of teaching and learning. However, for students, finding a compelling research topic can be a daunting task. That's why we're here to help! In this article, we have curated a collection of the latest education research topics and ideas to inspire you. From exploring how to best utilize technology in classrooms, to evaluating how certain teaching methods can improve learning outcomes, there is a wide range of topics that can be investigated. If you're seeking further support, don't hesitate to reach out and say, " Do my research paper !" We are here to simplify the process and help you excel in your academic pursuits. So let's delve into the exciting world of education research together!

List of education research paper topics

Education research paper topics refer to a wide range of subjects that students can explore in the field of education. Here is a list of topics for your inspiration:

• Impact of Online Learning on Student Engagement and Academic Performance
• Effectiveness of Project-Based Learning in Promoting Critical Thinking Skills
• Socioeconomic Status and Access to Quality Education
• Virtual and Augmented Reality in Enhancing the Learning Experience
• Role of Teacher Expectations in Shaping Student Outcomes
• Peer Mentoring Programs in Supporting Student Success
• Classroom Design and Student Learning Outcomes
• Technology-Assisted Language Learning in Second Language Acquisition
• Differentiated Instruction in Meeting Diverse Student Needs
• Cultural Competence in Teacher Effectiveness and Student Achievement
• Teacher-Student Relationships and Student Motivation
• Mindfulness Practices in Promoting Student Well-Being and Academic Achievement
• Teacher Professional Development and Instructional Quality
• Community Partnerships in Improving Educational Opportunities and Outcomes
• Inquiry-Based Learning in Promoting Scientific Literacy
• Experiential Learning Methods
• Parental Involvement and Student Success
• Early Childhood Education Outcomes
• Class Size and Academic Performance
• Motivation and Academic Performance
• School Climate and Academic Performance
• Collaborative Learning Approaches
• Cultural Competence and Academic Achievement
• Early Literacy Instruction and Future Reading Success
• Gender Disparities in Stem Academic Performance

Higher education research paper topics

This subtopic explores the impact of higher education on career prospects, the cost and affordability of college, the effectiveness of online learning, and the benefits of international study programs. Conducting research on these topics can lead to a better understanding of higher education and help achieve positive outcomes.

• Examining the Relationship between Online Learning and Student
• Engagement and Academic Performance in Higher Education
• The Effectiveness of Technology in Advancing Diversity and Inclusion in Higher Education
• Mental Health Consequences of Student Loan Debt: A Study
• Cultural Backgrounds and Their Influence on Students' Academic Experiences and Outcomes in Higher Education
• Evaluating the Impact of Mindfulness-Based Programs on Reducing Stress and Enhancing Academic Performance in College Students
• Assessing the Role of Faculty Diversity in Improving Student Learning and Success in Higher Education
• Student Engagement and Retention Rates in Higher Education: A Correlation Analysis
• The Preparedness of Competency-Based Education Programs for the Workforce
• The Continuing Impact of COVID-19 on Higher Education and Its Future Prospects
• The Contribution of Student Support Services to Academic Success and Graduation Rates in Higher Education

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Special education research topics

• Assistive Technology for Academic Success
• Inclusive Education Best Practices
• Parent Involvement for Disability Outcomes
• Differentiated Instruction for Disabled Students
• Early Intervention for Young Learners
• Positive Behavior Interventions for Disabilities
• Co-teaching Models for Disabled Students
• Teacher Attitudes Towards Disabilities
• Peer Mentoring for Emotional Development
• Vocational Training for Disabled Employment
• Individualized Education Programs and Outcomes
• Reading Interventions for Learning Disabilities
• Social Skills Training for Disabilities
• Paraeducators’ Support for Disabled Students
• Self-Determination for Independent Living Skills
• Peer Support Groups for Emotional Outcomes
• Assistive Tech for Extracurricular Activities
• Mindfulness Interventions for Self-Regulation
• Collaborative Problem-Solving for Disabilities
• Physical Activity for Emotional Well-Being
• Inclusive Education for Students with special needs

Educational research topics on child development

This topic covers a broad range of research topics, including the effects of nature and nurture on child development, the impact of early childhood experiences on later development, the role of play in learning, and the influence of family and cultural factors on child development.

• Play and Learning in Early Childhood Development
• Mindfulness and Its Role in Promoting Child Development
• Nature Exposure and Children’s Cognitive Development
• Art Education for Child Development
• Family Dynamics Impact on Child Development
• The Effect of Trauma on Child Development
• Bilingualism and Cognitive Development in Children
• Creativity for Early Childhood Development
• Socioeconomic Status and Child Development
• Peer Mentoring for Child Development
• How Motor Skills Affect Children’s Academic Success?
• The Impact of Parent-Child Communication on Child Development
• Attachment and Self-Esteem Development in Children
• The Influence of Childcare Settings on Child Development
• Outdoor Play’s Relationship to Child Development
• Social Media and Adolescent Development
• Importance of Empathy for Child Development
• Culture and Gender Identity Development in Children
• The Importance of Resilience for Child Development
• Role of Executive Functioning in Social Skills Development

Educational research topics for college students

• Effects of Technology on Student Learning Outcomes in Higher Education
• A Comparative Study on Student Engagement and Achievement in Online Versus Traditional Classroom Instruction
• Teacher Feedback and Its Impact on Student Performance
• Parent Involvement and Its Influence on Student Academic Achievement
• Correlational Study on Sleep Habits and Academic Performance Among College Students
• Comparison of Different Study Techniques and Strategies for College Students
• Cultural Diversity in the Classroom and Its Effects on Student Learning
• Investigating the Relationship Between Student Motivation and Academic Performance
• Teaching Methodologies and Student Achievement in Stem Fields
• Impact of Teacher Expectations on Student Academic Achievement
• Comparative Study on Gender and Academic Performance in Different Subject Areas
• Extracurricular Activities and Academic Achievement: Examining the Relationship
• Effects of Peer-To-Peer Learning on Student Academic Performance
• The Impact of College Entrance Exams on Student Academic Performance
• Exploring the Relationship Between Social Media Use and Academic Performance Among College Students
• A Comparative Study on the Impact of Active Versus Passive Learning Approaches on Student Academic Performance
• Examining the Impact of Teacher Training on Student Academic Achievement
• The Effects of Teacher Burnout on Student Academic Achievement
• Different Types of Assessments and Their Effects on Student Academic Performance
• The Relationship Between College Students’ Study Habits and Academic Performance

Latest research topics in education

• How Can Technology Be Used to Enhance Student Learning in the Classroom?
• What Are the Benefits and Challenges of Homeschooling as a Form of Education?
• How Does the Use of Social Media Affect Student Engagement and Academic Performance?
• What Is the Impact of Teacher-Student Relationships on Student Motivation and Achievement?
• How Can Cultural Diversity Be Effectively Incorporated Into the Classroom to Promote Learning and Understanding?
• What Are the Best Strategies for Promoting Effective Reading Skills in Students of All Ages?
• How Can Project-Based Learning Be Used to Promote Critical Thinking and Problem-Solving Skills in Students?
• What Are the Most Effective Ways to Promote Student Creativity and Innovation in the Classroom?
• How Does Teacher Feedback and Assessment Impact Student Learning and Academic Success?
• What Are the Benefits and Challenges of Online Learning in Higher Education?
• How Can Differentiated Instruction Be Used to Meet the Needs of Diverse Learners in the Classroom?
• What Is the Impact of Parental Involvement on Student Academic Achievement?
• How Can Schools Promote Positive Mental Health and Well-Being in Students?
• What Is the Role of Experiential Learning in Promoting Student Engagement and Learning Outcomes?
• What Are the Best Strategies for Promoting Effective Writing Skills in Students of All Ages?
• How Can Schools Effectively Address and Prevent Bullying and Cyberbullying?
• What Is the Impact of Student-Teacher Ratio on Student Academic Achievement?
• How Can Schools Promote Effective Collaboration and Teamwork Skills in Students?
• What Are the Benefits and Challenges of Competency-Based Education in Higher Education?
• How Can Schools Effectively Support and Accommodate Students With Disabilities?

Topics for action research in education

Discover how to make a positive difference in the world of education through innovative and effective action research. Learn about topics for action research that are relevant to current educational practices and trends. Get started on making your mark through thoughtful exploration of educational topics for action research!

• The Impact of Project-Based Learning on Student Achievement
• Strategies to Increase Student Engagement Through Technology Integration
• Methods to Improve Reading Comprehension in Elementary School Students
• Addressing Absenteeism Among High School Students
• Effective Strategies for Promoting Collaborative Learning
• Developing Critical Thinking Skills in Middle School Students
• Improving Teacher-Student Relationships to Enhance Student Learning
• Mindfulness Practices to Reduce Student Anxiety
• Examining the Effectiveness of Differentiated Instruction on Student Learning Outcomes
• Investigating the Effects of Physical Activity on Academic Achievement
• Culturally Responsive Teaching Practices to Meet the Needs of Diverse Students
• Investigating the Effects of Class Size on Student Achievement
• Strategies to Improve Parent Involvement in the Education Process to Support Student Success
• Examining the Effects of Music Education on Academic Achievement
• Effective Strategies for Teaching English Language Learners
• Investigating the Effects of School Uniforms on Student Behavior
• Promoting Positive Behavior in the Classroom Through Positive Reinforcement
• Addressing Academic Stress Among High School Students
• Strategies to Address Student Learning Gaps Caused by Pandemic-Related Disruptions
• The Impact of Teacher Professional Development on Student Learning Outcomes

Provocative education research topics

Research into education is groundbreaking, with new discoveries and ideas being created every day. This list of provocative research topics focuses on the most timely and important questions in education today. From educational technology to teaching methods and beyond, these questions are sure to spark intriguing conversations and novel insights.

• How Does the Use of Technology in the Classroom Impact Student Learning Outcomes?
• To What Extent Does Parental Involvement Affect Academic Performance?
• In What Ways Does Teacher Diversity Influence Student Success?
• What Are the Benefits and Challenges of Multilingual Education in the Classroom?
• How Does Social Media Use Affect Student Learning and Academic Achievement?
• What Are the Strengths and Weaknesses of Standardized Testing in Measuring Student Learning?
• What Is the Relationship Between Classroom Environment and Academic Achievement?
• How Does Project-Based Learning Develop Critical Thinking Skills in Students?
• What Is the Correlation Between Mental Health and Academic Performance?
• How Effective Is Differentiated Instruction in Promoting Student Engagement?
• What Is the Impact of Professional Development on Teacher Efficacy and Student Learning Outcomes?
• How Does Collaborative Learning Impact Student Academic Achievement?
• What Is the Role of School Culture in Promoting Academic Success?
• How Can Education Promote Equity and Social Justice in the Classroom?
• How Does Online Learning Compare to Traditional Classroom Learning in Developing Student Competencies?
• What Is the Correlation Between Parenting Styles and Student Academic Success?
• How Do Gender and Cultural Differences Impact Learning Styles and Academic Achievement?
• What Is the Relationship Between Extracurricular Activities and Academic Success?
• How Effective Is Personalized Learning in Fostering Student Motivation and Engagement?
• What Is the Long-Term Impact of Early Childhood Education on Academic Achievement and Success?

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How to choose a good topic on education subject

Choosing a good topic on education is essential for engaging your audience and making an impact. To do this successfully, consider the following steps:

• Determine your passions: contemplate the facets of education that captivate and inspire you the most.
• Know your audience: be mindful of the readers or viewers of your work, and consider their interests and preferences.
• Explore contemporary trends and concerns: investigate recent developments, tendencies, technologies, approaches, policies, and research within education that are currently influencing the field.
• Uncover knowledge voids: pinpoint areas within education where research or comprehension is lacking, and choose a subject that addresses these deficiencies while contributing to the broader field.
• Consult with experts: engage with teachers, professors, or other industry professionals to gather insights on potential subjects - they may even provide helpful recommendations or direct you to valuable resources!

Choosing the right research topic is vital for students in the field of education. Staying informed about current trends and developments is key. This article provides a diverse list of top education research paper topics, allowing students to select an intriguing idea that aligns with their interests and goals. To save time and effort, you can choose to pay for papers , guaranteeing expertly crafted research papers while you concentrate on your academic goals.

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450+ Technology Research Topics & Ideas for Your Paper

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Technology is like a massive puzzle where each piece connects to form the big picture of our modern lives. Be it a classroom, office, or a hospital, technology has drastically changed the way we communicate and do business. But to truly understand its role, we need to explore different technology research topics.

And that's where this blog will be handy! Powered by solid experience, our professional term paper writers gathered multiple technology research paper topics in literally any direction. Whether you're a student looking for an intriguing subject for your project or just a tech enthusiast trying to broaden your understanding, we've got your back. Dive into this collection of tech topics and see how technological progress is shaping our world.

What Are Technology Topics?

Technology is the application of scientific knowledge for practical purposes. It's the smartphone in your hand, the electric car on your street, and the spacecraft exploring Mars. It might also be the code that protects your online privacy and the microscope that uncovers mysteries of the human cell.

Technology permeates our lives, revolutionizing the way we communicate, learn, work, and play. But, beyond the gadgets and gizmos, there's a world of diverse technology research topics, ideas, concepts, and challenges.

Technology topics zoom in on these ideas, peeling back the layers of the tech universe. As a researcher, you might study how AI is changing healthcare, explore the ethical implications of robotics, or investigate the latest innovations in renewable energy. Your project should probe into the 'how,' the 'why,' and the 'what next' of the technology that is reshaping our world. So, whether you're dissecting the impact of EdTech on traditional learning or predicting the future of space exploration, research topics in technology are limitless.

Branches of Technology Research Paper Topics

Undoubtedly, the reach of technology is extensive. It's woven its way into almost every corner of our lives. Before we move to technological research topics, let’s first see just where technology has left its mark. So, here are some areas where technology is really shaking things up:

• Government services: E-governance, digital IDs, and digital voting are just a few examples of technology's application in government services.
• Finance: Fintech innovations include cryptocurrencies, mobile banking, robo-advising, and contactless payments.
• Education: Technology is used in a wide variety of educational contexts, from e-learning platforms and digital textbooks to educational games and virtual classrooms.
• Communication: Social media, video conferencing, instant messaging, and email are all examples of tech's role in communication.
• Healthcare: From electronic medical records and telemedicine to advanced imaging technology and robotic surgery, technology is surely transforming healthcare.
• Agriculture: Technological advancements are revolutionizing agriculture through precision farming, automated machinery, drones, and genetic engineering.
• Retail: It also influences retail through e-commerce, mobile payments, virtual fitting rooms, and personalized shopping experiences.
• Environment: Tech is used in climate modeling, conservation efforts, renewable energy, and pollution control.

These are far from all sectors where technology can be applied. But this list shows how diverse topics in technology can be.

How to Choose a Technology Research Topic?

Before you select any idea, it’s important to understand what a good technology research topic is. In a nutshell, a decent topic should be interesting, relevant, and feasible to research within your available resources and time. Make sure it’s specific enough, but not to narrow so you can find enough credible resources. 

Your technology topic sets the course of your research. It influences the type and amount of information you'll search for, the methods you'll use to find it, and the way you'll interpret it. Ultimately, the right topic can make your research process not only more manageable but also more meaningful. But how to get started, you may ask. Don’t worry! Below we are going to share valuable tips from our thesis writers on how to choose a worthy topic about technology.

• Make research Study the latest trends and explore relevant technology news. Your task is to come up with something unique that’s not been done before. Try to look for inspiration in existing literature, scientific articles, or in past projects.
• Recognize your interests Start with what you are genuinely curious about in the field of technology. Passion can be a great motivator during the research process.
• Consider the scope You want a topic that is neither too broad nor too narrow. It should provide enough material to explore without being overwhelming.
• Check availability of resources Ensure there are sufficient trustworthy resources available for your chosen topic.
• Evaluate the relevance Your technology research idea should be pertinent to your field of study and resonate with current trends. This can make your research more valuable and engaging for your audience.

Top List of Technology Research Topics

Are you looking for the best research topics about technology? Stop by! Here, we’ve carefully collected the topic ideas to ignite your curiosity and support your research. Each topic offers various data sources, allowing you to construct well-supported arguments. So, let's discover these fascinating subjects together!

• AI's influence on healthcare.
• Challenges of cybersecurity in a connected world.
• Role of drones in modern agriculture.
• Could renewable energy replace fossil fuels?
• Impact of virtual reality on education.
• Blockchain's potential beyond cryptocurrencies.
• Ethical considerations in biotechnology.
• Can smart cities enhance quality of life?
• Autonomous vehicles – opportunities and threats.
• Robotics in manufacturing.
• Is big data changing decision-making processes?
• E-waste : Challenges and solutions.
• Role of IoT in smart homes.
• Implications of 5G technology.
• EdTech: A revolution in learning?

Good Technology Research Topics

Ready for another batch of inspiration? Get ready to discover great technology topics for a research paper across various disciplines. These ideas are designed to stimulate your creativity and provide substantial information for your research. So, let's explore these exciting themes together!

• Impact of nanotechnology on medicine.
• Harnessing quantum computing potential.
• Augmented reality in tourism.
• Can bioinformatics revolutionize disease prediction?
• Sustainability in tech product design.
• Darknet : A hidden side of the internet.
• How does technology influence human behavior?
• Assistive technology in special education.
• Are smart textiles transforming the fashion industry?
• Role of GIS in urban planning.
• Space tourism: A reality or fantasy?
• Potential of digital twins in engineering.
• How is telemedicine shaping healthcare delivery?
• Green IT : Addressing environmental issues.
• Impact of machine learning on finance.

Interesting Technology Research Paper Topics

For those craving intriguing angles and fresh ideas, we present these interesting topics in technology. This collection is filled with thought-provoking subjects that cover the lesser-known areas of technology. Each topic is concise, clear, and ready to spark a fascinating research journey!

• Cyber-physical systems in industry 4.0.
• Social implications of deepfake technology.
• Can gamification enhance learning outcomes?
• Neuromorphic computing: Emulating the human brain.
• Li-Fi : Light-based communication technology.
• Health risks of prolonged screen time.
• Quantum cryptography and secure communication.
• Role of technology in sustainable agriculture.
• Can we predict earthquakes with AI?
• Virtual influencers: A new trend in marketing.
• Tech solutions for wildlife conservation.
• Role of 3D printing in organ transplantation.
• Impact of automation on the job market.
• Cloud gaming: A new era in the gaming industry.
• Genomic editing: Possibilities and ethical concerns.

New Technology Research Topics

Understanding the fast-paced world of technology requires us to keep up with the latest developments. Hence, we bring you burning  technology research paper topics. These ideas reflect the most recent trends and advances in technology, offering fresh perspectives for your research. Let's take a look at these compelling subjects!

• Potential of hyper automation in business processes.
• How is AI changing digital marketing?
• Brain-computer interfaces: The future of communication?
• Quantum supremacy : Fact or fiction?
• 5D data storage: Revolutionizing data preservation.
• Rise of voice technology in consumer applications.
• Using AI for mental health treatment.
• Implications of edge computing for IoT devices.
• Personalized learning with AI in education.
• Role of technology in reducing food waste.
• Digital twin technology in urban development.
• Impact of AI on patent law.
• Cybersecurity in the era of quantum computing.
• Role of VR in disaster management training.
• AI in talent recruitment: Pros and cons.

Unique Technology Research Topics

For those wanting to stand out with truly original research, we offer 100% authentic topics about technology. We understand that professors highly value unique perspectives. Below we've meticulously selected these technology paper topics to offer you something different. These are not your everyday technology subjects but rather unexpected gems ready to be explored.

• Digital ethics in AI application.
• Role of technology in countering climate change.
• Is there a digital divide in developing countries?
• Role of drones in disaster management.
• Quantum internet: Possibilities and challenges.
• Digital forensic techniques in cybersecurity.
• Impact of technology on traditional art forms.
• Biohacking: Can we really upgrade ourselves?
• Technology and privacy: An inevitable trade-off?
• Developing empathy through virtual reality.
• AI and creativity: Can machines be artists?
• Technology's impact on urban gardening.
• Role of technology in accessible tourism.
• Quantum biology: A frontier of science.
• Unmanned underwater vehicles: Opportunities and threats.

Informative Research Topics in Technology

If you are seeking comprehensive information on technologies, this selection will definitely provide you with insights. As you may know, every study should be backed up by credible sources. Technology topics for research papers below are very easy to investigate, so you will surely find a bunch of academic resources.

• Exploring  adaptive learning systems in online education.
• Role of technology in modern archaeology.
• Impact of immersive technology on journalism.
• The rise of telehealth services.
• Green data centers: A sustainable solution?
• Cybersecurity in mobile banking.
• 3D bioprinting : A revolution in healthcare?
• How technology affects sleep quality.
• AI in music production: A new era?
• Technology's role in preserving endangered languages.
• Smart grids for sustainable energy use.
• The future of privacy in a digital world.
• Can technology enhance sports performance?
• Role of AR in interior design.
• How technology is transforming public libraries.

Controversial Research Topics on Technology

Technological field touches upon areas where technology, ethics, and society intersect and often disagree. This has sparked debates and, sometimes, conspiracy theories, primarily because of the profound implications technologies have for our future. Take a look at these ideas, if you are up to a more controversial research topic about technology:

• Facial recognition technology: Invasion of privacy?
• Tech addiction: Myth or reality?
• The ethics of AI in warfare.
• Should social media platforms censor content?
• Are cryptocurrencies a boon or a bane?
• Is technology causing more harm than good to our health?
• The bias in machine learning algorithms.
• Genetic engineering: Playing God or advancing science?
• Will AI replace human jobs?
• Net neutrality: Freedom of internet or control?
• The risk of AI superintelligence.
• Tech companies' monopoly: Beneficial or detrimental?
• Are we heading towards a surveillance society?
• AI in law enforcement: Safeguard or threat?
• Do we rely too much on technology?

Easy Technology Research Paper Topics

Who ever thought the tech field was only for the tech-savvy? Well, it's time to dispel that myth. Here in our collection of simple technology research topics, we've curated subjects that break down complex tech concepts into manageable chunks. We believe that every student should get a chance to run a tech related project without any hurdles.

• Impact of social media on interpersonal communication.
• Smartphones: A boon or a bane?
• How technology improves accessibility for people with disabilities.
• E-learning versus traditional learning.
• Impact of technology on travel and tourism.
• Pros and cons of online shopping.
• How has technology changed entertainment?
• Technology's role in boosting productivity at work.
• Online safety: How to protect ourselves?
• Importance of digital literacy in today's world.
• How has technology influenced the music industry?
• E-books vs printed books: A tech revolution?
• Does technology promote loneliness?
• Role of technology in shaping modern communication.
• The impact of gaming on cognitive abilities.

Technology Research Topics Ideas for Students

As an experienced paper writing service online that helps students all the time, we understand that every learner has unique academic needs. With this in mind, the next section of our blog is designed to cater specifically to different academic levels. Whether you're a high school student just starting to explore technology or a doctoral candidate delving deep into a specialized topic, we've got different technology topics arranged by complexity.

Technology Research Topics for High School Students

High school students are expected to navigate complex topics, fostering critical thinking and promoting in-depth exploration. The proposed research paper topics on technology will help students understand how tech advancements shape various sectors of society and influence human life.

• How have smartphones changed our communication?
• Does virtual reality in museums enhance visitor experience?
• Understanding privacy issues in social media.
• How has technology changed the way we listen to music?
• Role of technology in promoting fitness and healthy lifestyle.
• Advantages and disadvantages of online learning.
• Does excessive screen time affect sleep quality?
• Do video games affect academic performance?
• How do GPS systems work?
• How has technology improved animation in films?
• Pros and cons of using smart home devices.
• Are self-driving cars safe?
• Technology's role in modernizing local libraries.
• Can technology help us lead more sustainable lifestyles?
• Can technology help improve road safety for teenagers?

Technology Research Topics for College Students

Think technology research topics for college are all about rocket science? Think again! Our compilation of college-level tech research topics brings you a bunch of intriguing, conversation-stirring, and head-scratching questions. They're designed to let you sink into the world of technology while also pushing your academic boundaries. Time to dive in, explore, question, and take your own unique stance on hot-button issues.

• Biometrics in identity verification: A privacy risk?
• Impact of 5G on mobile gaming.
• Are wearable fitness devices a true reflection of health?
• Can machine learning help predict climate change effects?
• Are digital currencies disrupting traditional finance?
• Use of drones in search and rescue operations.
• Impact of e-learning on academic performance.
• Does artificial intelligence have a place in home security?
• What are the ethical issues surrounding robotic surgery?
• Are e-wallets a safer option for online transactions?
• How has technology transformed news dissemination?
• AI in language translation: How accurate can it be?
• Personalized advertising: Boon or bane for online users?
• Are smart classes making learning more interactive?
• Influence of technology on homemade crafts and DIY culture.

Technology Research Topics for University Students

Are you browsing for university technology research ideas? We've got you covered. Whether you're about to dig deep into high-tech debates, or just taking your first steps, our list of technology research questions is your treasure chest.

• Blockchain applications in ensuring academic integrity.
• Impact of quantum computing on data security.
• Are brain-computer interfaces a future communication tool?
• Does digital currency pose a threat to the global economy?
• Use of AI in predicting and managing natural disasters.
• Can biometrics replace traditional identification systems?
• Role of nanotechnology in waste management.
• Machine learning's influence on climate change modeling.
• Edge computing: Revolutionizing data processing?
• Is virtual reality in psychological therapy a viable option?
• Potential of synthetic biology in medical research.
• Quantum cryptography: An uncrackable code?
• Is space tourism achievable with current technology?
• Ethical implications of gene editing technologies.
• Artificial intelligence in governance.

Technology Research Paper Topics in Different Areas

In the next section, we've arranged a collection of technology research questions related to different areas like computer science, biotechnology, and medicine. Find an area you are interested in and look through subject-focused ideas and topics for a research paper on technology.

Technology Research Topics on Computer Science

Computer science is a field that has rapidly developed over the past decades. It deals with questions of technology's influence on society, as well as applications of cutting-edge technologies in various industries and sectors. Here are some computer science research topics on technology to get started:

• Prospects of machine learning in malware detection.
• Influence of cloud computing on business operations.
• Quantum computing: potential impacts on cryptography.
• Role of big data in personalized marketing.
• Can AI models effectively simulate human decision-making?
• Future of mobile applications: Towards augmented reality?
• Pros and cons of open source software development.
• Role of computer science in advancing virtual reality.
• Natural language processing: Transforming human-computer interaction?
• Developing secure e-commerce platforms: Challenges and solutions.
• Green computing : solutions for reducing energy consumption.
• Data mining in healthcare: An untapped opportunity?
• Understanding cyber threats in the internet of things.
• Algorithmic bias: Implications for automated decision-making.
• Role of neural networks in image recognition.

Information Technology Research Topics

Information technology is a dynamic field that involves the use of computers and software to manage and process information. It's crucial in today's digital era, influencing a range of industries from healthcare to entertainment. Here are some captivating information technology related topics:

• Impact of cloud technology on data management.
• Role of information technology in disaster management.
• Can artificial intelligence help improve data accuracy?
• Cybersecurity measures for protecting personal information.
• Evolving role of IT in healthcare administration.
• Adaptive learning systems: A revolution in education?
• E-governance : Impact on public administration.
• Role of IT in modern supply chain management.
• Bioinformatics and its role in personalized medicine.
• Is data mining an invasion of privacy?
• Can virtual reality enhance training and development programs?
• Role of IT in facilitating remote work.
• Smart devices and data security: A potential risk?
• Harnessing IT for sustainable business practices.
• How can big data support decision-making processes?

Technology Research Topics on Artificial Intelligence

Artificial Intelligence, or AI as we fondly call it, is all about creating machines that mimic human intelligence. It's shaping everything from how we drive our cars to how we manage our calendars. Want to understand the mind of a machine? Choose a topic about technology for a research paper from the list below:

• AI's role in detecting fake news.
• Chatbots in customer service: Are humans still needed?
• Algorithmic trading: AI's impact on financial markets.
• AI in agriculture: a step towards sustainable farming?
• Facial recognition systems: an AI revolution or privacy threat?
• Can AI outperform humans in creative tasks?
• Sentiment analysis in social media: how effective is AI?
• Siri, Alexa, and the future of AI.
• AI in autonomous vehicles: safety concern or necessity?
• How AI algorithms are transforming video games.
• AI's potential in predicting and mitigating natural disasters.
• Role of AI in combating cyber threats.
• Influence of AI on job recruitment and HR processes.
• Can AI help in advancing climate change research?
• Can machines make accurate diagnoses?

Technology Research Topics in Cybersecurity Command

Cybersecurity Command focuses on strengthening digital protection. Its goal is to identify vulnerabilities, and outsmart cyber threats. Ready to crack the code of the cybersecurity command? Check out these technology topics for research designed to take you through the tunnels of cyberspace:

• Cybersecurity strategies for a post-quantum world.
• Role of AI in identifying cyber threats.
• Is cybersecurity command in healthcare a matter of life and death?
• Is there any connection between cryptocurrency and cybercrime?
• Cyber warfare : The invisible battleground.
• Mitigating insider threats in cybersecurity command.
• Future of biometric authentication in cybersecurity.
• IoT security: command challenges and solutions.
• Cybersecurity and cloud technology: A secure match?
• Influence of blockchain on cybersecurity command.
• Machine learning's role in malware detection.
• Cybersecurity protocols for mobile devices.
• Ethics in cybersecurity: Hacking back and other dilemmas.
• What are some steps to recovery after a breach?
• Social engineering: Human factor in cybersecurity.

Technology Research Topics on Biotechnology

Biotechnology is an interdisciplinary field that has been gaining a lot of traction in the past few decades. It involves the application of biological principles to understand and solve various problems. The following research topic ideas for technology explore biotechnology's impact on medicine, environment, agriculture, and other sectors:

• Can GMOs solve global hunger issues?
• Understanding biotech's role in developing personalized medicine.
• Using biotech to fight antibiotic resistance.
• Pros and cons of genetically modified animals.
• Biofuels – are they really a sustainable energy solution?
• Ethical challenges in gene editing.
• Role of biotech in combating climate change.
• Can biotechnology help conserve biodiversity?
• Biotech in beauty: Revolutionizing cosmetics.
• Bioluminescence – a natural wonder or a biotech tool?
• Applications of microbial biotechnology in waste management.
• Human organ farming: Possibility or pipe dream?
• Biotech and its role in sustainable agriculture.
• Biotech advancements in creating allergy-free foods.
• Exploring the future of biotech in disease detection.

>> Read more: Biology Topics to Research

Technology Research Paper Topics on Genetic Engineering

Genetic engineering is an area of science that involves the manipulation of genes to change or enhance biological characteristics. This field has raised tremendous ethical debates while offering promising solutions in medicine and agriculture. Here are some captivating topics for a technology research paper on genetic engineering:

• Future of gene editing: Breakthrough or ethical dilemma?
• Role of CRISPR technology in combating genetic diseases.
• Pros and cons of genetically modified crops.
• Impact of genetic engineering on biodiversity.
• Can gene therapy provide a cure for cancer?
• Genetic engineering and the quest for designer babies.
• Legal aspects of genetic engineering.
• Use of genetic engineering in organ transplantation.
• Genetic modifications: Impact on human lifespan.
• Genetically engineered pets: A step too far?
• The role of genetic engineering in biofuels production.
• Ethics of genetic data privacy.
• Genetic engineering and its impact on world hunger.
• Genetically modified insects: Solution for disease control?
• Genetic engineering: A tool for biological warfare?

Reproduction Technology Research Paper Topics

Reproduction technology is all about the science that aids human procreation. It's a field teeming with innovation, from IVF advancements to genetic screening. Yet, it also stirs up ethical debates and thought-provoking technology topics to write about:

• Advances in in Vitro Fertilization (IVF) technology .
• The rise of surrogacy: Technological advancements and implications.
• Ethical considerations in sperm and egg donation.
• Genetic screening of embryos: A step forward or an ethical minefield?
• Role of technology in understanding and improving fertility.
• Artificial Wombs: Progress and prospects.
• Ethical and legal aspects of posthumous reproduction.
• Impact of reproductive technology on the LGBTQ+ community.
• The promise and challenge of stem cells in reproduction.
• Technology's role in preventing genetic diseases in unborn babies.
• Social implications of childbearing technology.
• The concept of 'designer babies': Ethical issues and future possibilities.
• Reproductive cloning: Prospects and controversies.
• Technology and the future of contraception.
• Role of AI in predicting successful IVF treatment.

Medical Technology Topics for a Research Paper

The healthcare field is undergoing massive transformations thanks to cutting-edge medical technology. From revolutionary diagnostic tools to life-saving treatments, technology is reshaping medicine as we know it. To aid your exploration of this dynamic field, we've compiled medical technology research paper topics:

• Role of AI in early disease detection.
• Impact of telemedicine on rural healthcare.
• Nanotechnology in cancer treatment: Prospects and challenges.
• Can wearable technology improve patient outcomes?
• Ethical considerations in genome sequencing.
• Augmented reality in surgical procedures.
• The rise of personalized medicine: Role of technology.
• Mental health apps: Revolution or hype?
• Technology and the future of prosthetics.
• Role of Big Data in healthcare decision making.
• Virtual reality as a tool for pain management.
• Impact of machine learning on drug discovery.
• The promise of medical drones for emergency response.
• Technology's role in combating antimicrobial resistance.
• Electronic Health Records (EHRs): Blessing or curse?

>> More ideas: Med Research Topics

Health Technology Research Topics

Health technology is driving modern healthcare to new heights. From apps that monitor vital stats to robots assisting in surgeries, technology's touch is truly transformative. Take a look at these topics related to technology applied in healthcare:

• Role of mobile apps in managing diabetes.
• Impact of health technology on patient privacy.
• Wearable tech: Fad or future of personal health monitoring?
• How can AI help in battling mental health issues?
• Role of digital tools in promoting preventive healthcare.
• Smart homes for the elderly: Boon or bane?
• Technology and its impact on health insurance.
• The effectiveness of virtual therapy sessions.
• Can health chatbots replace human doctors?
• Technology's role in fighting the obesity epidemic.
• The use of blockchain in health data management.
• Impact of technology on sleep health.
• Social media and its effect on mental health.
• Prospects of 3D printing in creating medical equipment.
• Tele-rehabilitation: An effective solution for physical therapy?

>> View more: Public Health Topics to Research

Communication Technology Research Topics

With technology at the helm, our ways of communicating are changing at an unprecedented pace. From simple text messages to immersive virtual conferences, technology has rewritten the rules of engagement. So, without further ado, let's explore these communication research ideas for technology that capture the essence of this revolution.

• AI chatbots: Re-defining customer service.
• The impact of 5G on global communication.
• Augmented Reality: The future of digital marketing?
• Is 'digital divide' hindering global communication?
• Social media's role in shaping public opinion.
• Can holographic communication become a reality?
• Influence of emojis in digital communication.
• The cybersecurity challenges in modern communication.
• Future of journalism in the digital age.
• How technology is reshaping political communication.
• The influence of streaming platforms on viewing habits.
• Privacy concerns in the age of instant messaging.
• Can technology solve the issue of language barriers?
• The rise of podcasting: A digital renaissance.
• Role of virtual reality in remote communication.

Research Topics on Technology in Transportation

Technology is the driving force behind the dramatic changes in transportation, making journeys safer, more efficient, and eco-friendly. Whether it's autonomous vehicles or the concept of Hyperloop, there are many transportation technology topics for a research paper to choose from:

• Electric vehicles: A step towards sustainable travel.
• The role of AI in traffic management.
• Pros and cons of autonomous vehicles.
• Hyperloop: An ambitious vision of the future?
• Drones in goods delivery: Efficiency vs. privacy.
• Technology's role in reducing aviation accidents.
• Challenges in implementing smart highways.
• The implications of blockchain in logistics.
• Could vertical takeoff and landing (VTOL) vehicles solve traffic problems?
• Impact of GPS technology on transportation.
• How has technology influenced public transit systems?
• Role of 5G in future transportation.
• Ethical concerns over self-driving cars.
• Technology in maritime safety: Progress and hurdles.
• The evolution of bicycle technology: From spokes to e-bikes.

Technology Research Paper Topics on Education

The intersection of technology and education is an exciting frontier with limitless possibilities. From online learning to interactive classrooms, you can explore various technology paper topics about education:

• How does e-learning affect student engagement?
• VR classrooms: A glimpse into the future?
• Can AI tutors revolutionize personalized learning?
• Digital textbooks versus traditional textbooks: A comparison.
• Gamification in education: Innovation or distraction?
• The impact of technology on special education.
• How are Massive Open Online Courses (MOOCs) reshaping higher education?
• The role of technology in inclusive education.
• Cybersecurity in schools: Measures and challenges.
• The potential of Augmented Reality (AR) in classroom learning.
• How is technology influencing homeschooling trends?
• Balancing technology and traditional methods in early childhood education.
• Risks and benefits of student data tracking.
• Can coding be the new literacy in the 21st century?
• The influence of social media on academic performance.

>> Learn more: Education Research Paper Topics

Relationships and Technology Research Topics

In the digital age, technology also impacts our relationships. It has become an integral part of how we communicate, meet people, and sustain our connections. Discover some thought-provoking angles with these research paper topics about technology:

• How do dating apps affect modern relationships?
• The influence of social media on interpersonal communication.
• Is technology enhancing or hindering long-distance relationships?
• The psychology behind online dating: A study.
• How do virtual reality environments impact social interaction?
• Social media friendships: Genuine or superficial?
• How does technology-mediated communication affect family dynamics?
• The impact of technology on work-life balance.
• The role of technology in sustaining long-term relationships.
• How does the 'always connected' culture influence personal boundaries?
• Cyberbullying and its effect on teenage relationships.
• Can technology predict compatibility in relationships?
• The effects of 'ghosting' in digital communication.
• How technology assists in maintaining relationships among elderly populations.
• Social media: A boon or bane for marital relationships?

Agriculture Technology Research Paper Topics

Modern agriculture is far from just tilling the soil and harvesting crops. Technology has made remarkable strides into the fields, innovating and improving agricultural processes. Take a glance at these technology research paper topic ideas:

• Can drone technology transform crop monitoring?
• Precision agriculture: Benefits and challenges.
• Aquaponics and the future of sustainable farming.
• How is artificial intelligence aiding in crop prediction?
• Impact of blockchain technology in food traceability.
• The role of IoT in smart farming.
• Vertical farming : Is it a sustainable solution for urban food supply?
• Innovations in irrigation technology for water conservation.
• Automated farming: A boon or a threat to employment in agriculture?
• How satellite imagery is improving crop disease detection.
• Biotechnology in crop improvement: Pros and cons.
• Nanotechnology in agriculture: Scope and limitations.
• Role of robotics in livestock management.
• Agricultural waste management through technology.
• Is hydroponics the future of farming?

Technological Research Topics on Environment

Our planet is facing numerous environmental challenges, and technology may hold the key to solving many of these. With innovations ranging from renewable energy sources to waste management systems, the realm of technology offers a plethora of research angles. So, if you're curious about the intersection of technology and environment, this list of research topics is for you:

• Innovations in waste management: A technology review.
• The role of AI in predicting climate change impacts.
• Renewable energy: Advancements in solar technology.
• The impact of electric vehicles on carbon emissions.
• Can smart agriculture help solve world hunger?
• Role of technology in water purification and conservation.
• The impact of IoT devices on energy consumption.
• Technology solutions for oil spills.
• Satellite technology in environmental monitoring.
• Technological advances in forest conservation.
• Green buildings: Sustainable construction technology.
• Bioengineering: A solution to soil erosion?
• Impact of nanotechnology on environmental conservation.
• Ocean clean-up initiatives: Evaluating existing technology.
• How can technology help in reducing air pollution?

>> View more: Environmental Science Research Topics

Energy & Power Technology Topics for Research Paper

Energy and power are two pivotal areas where technology is bringing unprecedented changes. You can investigate renewable energy sources or efficient power transmission. If you're excited about exploring the intricacies of energy and power advancements, here are some engaging technology topics for research papers:

• Assessing the efficiency of wind energy technologies.
• Power storage: Current and future technology.
• Solar panel technology: Recent advancements and future predictions.
• Can nuclear fusion be the answer to our energy crisis?
• Smart grid technology: A revolution in power distribution.
• Evaluating the impact of hydropower on ecosystems.
• The role of AI in optimizing power consumption.
• Biofuels vs. fossil fuels: A comparative study.
• Electric vehicle charging infrastructure: Technological challenges and solutions.
• Technology advancements in geothermal power.
• How is IoT technology helping in energy conservation?
• Harnessing wave and tidal energy: Technological possibilities.
• Role of nanotechnology in improving solar cell efficiency.
• Power transmission losses: Can technology provide a solution?
• Assessing the future of coal technology in the era of renewable energy.

Research Topics about Technology in Finance

The finance sector has seen drastic changes with the rise of technology, which has revolutionized the way financial transactions are conducted and services are offered. Consider these research topics in technology applied in the finance sector:

• Rise of cryptocurrency: An evaluation of Bitcoin's impact.
• Algorithmic trading: How does it reshape financial markets?
• Role of AI and machine learning in financial forecasting.
• Technological challenges in implementing digital banking.
• How is blockchain technology transforming financial services?
• Cybersecurity risks in online banking: Identifying solutions.
• FinTech startups: Disrupting traditional finance systems.
• Role of technology in financial inclusion.
• Assessing the impact of mobile wallets on the banking sector.
• Automation in finance: Opportunities and threats.
• Role of big data analytics in financial decision making.
• AI-based robo-advisors vs. human financial advisors.
• The future of insurance technology (InsurTech).
• Can technology solve the issue of financial fraud?
• Impact of regulatory technology (RegTech) in maintaining compliance.

>> More ideas: Finance Research Topics

War Technology Research Paper Topics

The nature of warfare has transformed significantly with the evolution of technology, shifting the battlegrounds from land, sea, and air to the realms of cyber and space. This transition opens up a range of topics to explore. Here are some research topics in the realm of war technology:

• Drones in warfare: Ethical implications.
• Cyber warfare: Assessing threats and defense strategies.
• Autonomous weapons: A boon or a curse?
• Implications of artificial intelligence in modern warfare.
• Role of technology in intelligence gathering.
• Satellite technology and its role in modern warfare.
• The future of naval warfare: Autonomous ships and submarines.
• Hypersonic weapons: Changing the dynamics of war.
• Impact of nuclear technology in warfare.
• Technology and warfare: Exploring the relationship.
• Information warfare: The role of social media.
• Space warfare: Future possibilities and implications.
• Bio-warfare: Understanding technology's role in development and prevention.
• Impact of virtual reality on military training.
• War technology and international law: A critical examination.

Food Technology Topics for Research Papers

Food technology is a field that deals with the study of food production, preservation, and safety. It involves understanding how various techniques can be applied to increase shelf life and improve nutrition value of foods. Check out our collection of food technology research paper topic ideas:

• Lab-grown meats: Sustainable solution or a mere hype?
• How AI is enhancing food safety and quality?
• Precision agriculture: Revolutionizing farming practices.
• GMOs: Assessing benefits and potential risks.
• Role of robotics in food manufacturing and packaging.
• Smart kitchens: Streamlining cooking through technology.
• Nanofood: Tiny technology, big impact.
• Sustainable food systems: Role of technology.
• Food traceability: Ensuring transparency and accountability.
• Food delivery apps: Changing the face of dining out.
• The rise of plant-based alternatives and their production technologies.
• Virtual and augmented reality in culinary experiences.
• Technology in mitigating food waste.
• Innovations in food packaging: Impact on freshness and sustainability.
• IoT in smart farming: Improving yield and reducing waste.

Entertainment Technology Topics

Entertainment technology is reinventing the ways we experience amusement. This industry is always presenting new angles for research and discussion, be it the rise of virtual reality in movies or the influence of streaming platforms on the music industry. Here's a list of unique research topics related to entertainment technology:

• Impact of virtual reality on the movie industry.
• Streaming platforms vs traditional media: A comparative study.
• Technology in music: Evolution and future prospects.
• eSports: Rise of a new form of entertainment.
• Augmented reality in theme parks.
• The transformation of theater with digital technology.
• AI and film editing: Redefining the art.
• The role of technology in the rise of independent cinema.
• Podcasts: Revolutionizing radio with technology.
• Immersive technologies in art exhibitions.
• The influence of technology on fashion shows and design.
• Livestreaming concerts: A new norm in the music industry?
• Drones in entertainment: Applications and ethics.
• Social media as an entertainment platform.
• The transformation of journalism in the era of digital entertainment.

Technology Research Questions

As we navigate the ever-changing landscape of technology, numerous intriguing questions arise. Below, we present new research questions about technology that can fuel your intellectual pursuit.

• What potential does quantum computing hold for resolving complex problems?
• How will advancements in AI impact job security across different sectors?
• In what ways can blockchain technology reform the existing financial systems?
• How is nanotechnology revolutionizing the field of medicine?
• What are the ethical implications surrounding the use of facial recognition technology?
• How will the introduction of 6G change our communication patterns?
• In what ways is green technology contributing to sustainable development?
• Can virtual reality transform the way we approach education?
• How are biometrics enhancing the security measures in today's digital world?
• How is space technology influencing our understanding of the universe?
• What role can technology play in solving the global water crisis?
• How can technology be leveraged to combat climate change effectively?
• How is technology transforming the landscape of modern agriculture?
• Can technological advancements lead to a fully renewable energy-dependent world?
• How does technology influence the dynamics of modern warfare?

Bottom Line on Research Topics in Technology

Technology is a rapidly evolving field, and there's always something new to explore. Whether you're writing for the computer sciences, information technology or food technology realm, there are endless ideas that you can research on. Pick one of these technology research paper topics and jumpstart your project.

Trust professionals to ‘ write a research paper for me !’ Our team of expert writers is ready to assist you in crafting an exceptional research paper on any topic. Just reach out, and we'll provide you with high-quality work tailored to your needs.

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100 Technology Research Topics for Your Next Project

Technology research is the systematic study of emerging and existing technologies to solve problems or improve processes. This article covers different branches of technology research and all the latest developments and trends.

You’ll find comprehensive lists for cybersecurity, blockchain, artificial intelligence, and more. These technology research topics are designed to help you choose a relevant and impactful topic for your research paper. Whether you’re interested in 5G security loopholes, machine learning predictions, or ethical hacking, this guide has you covered.

If, after reading this article, you are still stuck with developing your research topic and are thinking, 'Can I pay someone to do my research paper ?' the answer is absolutely. EssayHub is the perfect service for assistance. The professional team can help you craft a well-researched technology essay, bringing you closer to your academic goals.

Happy researching!

Branches of Technology Research Paper Topics

The pace of modern technological advancement is unprecedented, with some remarkable statistics being reported:

• E-commerce sales reached $5.29 trillion in 2024—a boost from $4.98 trillion in 2021.
• Telemedicine usage surged by 700% during the COVID-19 pandemic, transforming healthcare delivery.
• Renewable energy sources accounted for 29% of global electricity in 2022.

We chose the following sectors to focus on since they all showed a significant increase in their respective technologies:

How to Choose Technology Research Topics?

With these sectors in mind, the next step is to understand how to choose the right technology research topic.

• Your Interests. Start by thinking about what areas of technology get you most excited. If you’re into cybersecurity, focus on new threat detection or encryption methods. This will keep you motivated throughout the research.
• Current trends. Research the latest trends and developments using academic journals, industry reports, and technology news websites. For example, AI in healthcare is exploding with innovations like predictive diagnostics and personalized treatments.
• Scope. Make sure your topic isn’t too broad or too narrow. “AI in Healthcare” is broad, but “AI for Predicting Patient Readmissions in Urban Hospitals” is specific, manageable, and can be studied in depth.
• Relevance and Impact. Choose a topic relevant to current technological challenges. For example, researching “Blockchain for Secure Voting Systems” can address real-world election security issues.
• Research Question. Formulate a concise research question: "How can machine learning be used to diagnose Alzheimer’s disease earlier?” This will guide your research.
• Talk to Experts and Peers. Discuss your ideas with professors, industry experts, and peers. Their feedback will help refine your topic and might suggest a subtopic you hadn’t thought of.
• Proposal. Draft a research proposal outlining your objectives, methodology, and expected outcomes. This will keep you focused and organized and provide a clear roadmap for your project.

If you need guidance on organizing your work, check out how to structure a table of contents in research .

By following these steps, you can select a technology research topic that is both interesting and feasible, setting the foundation for a successful research project. ​

And for inspiration, here is a list of specific technology research topics to help you get started:

Cybersecurity Technology Research Topics

Cybersecurity technology research involves protecting systems, networks, and data from cyber-attacks:

• How Well Does Zero Trust Work in the Cloud? Approach this topic by showing how Zero Trust models reshape cloud security, with Google’s BeyondCorp as an example.
• Can Machine Learning Predict Cyber Threats? Analyze how tools like Google's DeepMind foresee cyber threats, focusing on their accuracy.
• What Are the Security Holes in 5G? Learn about the leading security challenges of 5G and how they’re being addressed, guided by insights from Nokia's Threat Intelligence Report.
• How do Data Privacy Laws Vary Across Countries? This topic can be done by comparing global data privacy laws, including GDPR and Brazil’s LGPD, and how they’re applied in real life.
• How Does AI Technology Improve Phishing Detection? See how AI systems (e.g., Google’s SAIF) improve phishing detection by looking at their methods and results.
• How Does Blockchain Technology Enhance Cybersecurity? Explore how blockchain is used in cybersecurity, especially finance, with examples like JPMorgan’s Quorum.
• What Are the Cybersecurity Risks of Remote Work? This topic can be explored by checking out the cybersecurity measures for remote work and the lessons from recent security incidents (think of the Zoom breach ).
• How Reliable are Biometric Authentication Systems? Compare systems such as Apple’s Face ID and Microsoft’s Windows Hello to help you discuss their reliability and areas for improvement.
• What’s the Role of Ethical Hacking in Proactive Cyber Defense? Look into how initiatives like Hack the Pentagon use ethical hacking to improve cybersecurity.
• How Effective is Cybersecurity Technology in Securing the Organization? Research gamified cybersecurity training programs and their impact on employee engagement and knowledge retention.

Blockchain Technology Research Paper Topics

These topics will help you get a broad understanding of blockchain’s applications:

• How Can Blockchain Make Supply Chain Transparent? See how giants like IBM and Walmart use blockchain to track their products from start to finish.
• What Are the Security Benefits of Blockchain in Payments? Approach this topic by exploring how blockchain makes transactions more secure, focusing on JPMorgan's Quorum cutting down on fraud.
• What is the Role of Blockchain Technology in Healthcare Data? Discover how blockchain secures patient data and makes it more accessible, with examples like Medicalchain.
• How Good Is Blockchain at Enhancing Cybersecurity? Learn how blockchain’s decentralized design helps prevent cyber threats by locking down data storage.
• What Is the Role of Blockchain Technology in DeFi? You can tackle this topic by checking out how Ethereum uses blockchain to handle transactions without traditional financial intermediaries.
• How Can Blockchain Support Digital ID Verification? Find out how projects like uPort use blockchain to verify identities and stop identity theft.
• What is the Environmental Impact of Blockchain? Look at the environmental impact of blockchain, especially in mining, and explore greener solutions like proof-of-stake.
• How Is Blockchain Technology Used in Intellectual Property Protection? Dive into this topic by researching how platforms like IPwe use blockchain to lock down IP rights and prevent infringement.
• What Are the Challenges of Implementing Blockchain in Government? See how blockchain is used in government for secure voting and public records.
• Can Blockchain Technology Change Real Estate? Learn how platforms like Propy use blockchain to make real estate more transparent and fraud-free.

Artificial Intelligence Technology Topics

These topics cover various aspects of AI, from healthcare and ethics to automotive innovations and personalized learning:

• How Can AI Help with Healthcare Diagnostics? This topic can be addressed by studying how AI speeds up and improves disease diagnosis like cancer through medical image analysis.
• What Are the Ethics of AI in Decision Making? Check out the ethical challenges AI introduces in fields like finance and healthcare, focusing on potential biases and the need for ethical guidelines.
• How Is AI Technology Changing the Automotive Industry? Investigate how AI is advancing the development of self-driving cars, making them safer and more efficient.
• What Are the Applications of AI in Personalized Learning? Consider this topic through the lens of how AI customizes learning experiences with adaptive learning systems to meet student needs.
• How Can AI Technology Improve Cybersecurity? Discover how AI detects and prevents cyber threats by identifying anomalies and responding to breaches.
• What Is the Impact of AI on Job Markets? Find out how AI is changing the job market, including job displacement and creating new opportunities.
• How Is AI Used in Natural Language Processing? Explore this topic by looking into the latest advancements in AI for NLP, including chatbots, virtual assistants, and translation tools.
• What Are the Environmental Impacts of AI Technologies? Examine AI's environmental footprint, especially its energy consumption, and explore efforts to make AI more sustainable.
• How Can AI Enhance Mental Health Treatment? See how AI is used in mental health care, with chatbots for therapy and mental health data analysis, and consider its effectiveness and limitations.
• What Are the Challenges of Implementing AI in Healthcare? Look into the hurdles to integrating AI into healthcare: data privacy, regulatory issues, and the need for clinical validation.

E-learning Technology Research Topics

These topics explore how technology is enhancing learning experiences, improving accessibility, and addressing security issues:

• How Does AI Technology Personalize E-learning? This topic can be approached by analyzing how AI learns from student data and provides custom content and instant feedback to boost engagement and grades.
• What Are the Benefits and Drawbacks of Gamification in E-learning? Find out how adding game elements like points and leaderboards makes learning more fun while considering the potential downsides of over-rewarding.
• How do Virtual Classrooms Compare to Traditional Classrooms? Compare virtual and in-person classrooms by student performance, engagement levels, and satisfaction through surveys and studies.
• What Role Do Mobile Learning Apps Play in Modern Education? Examine this topic by focusing on how mobile apps increase accessibility and improve learning outcomes by making education more convenient.
• How Can E-learning be More Accessible for Students with Disabilities? Research ways to make e-learning platforms more accessible for students with disabilities and test the effectiveness of these features.
• What Are the Effects of E-learning on Student Collaboration? Analyze how tools like discussion forums and video conferencing impact collaboration and social interaction among students.
• How Can Data Analytics Improve E-learning? Investigate how e-learning platforms use data analytics to track progress, identify learning patterns, and provide personalized tips.
• What Are the Best Practices for Designing Engaging E-learning Content? Explore strategies like using multimedia, interactive quizzes, and user-friendly design to create engaging e-learning content.
• How Does E-learning Support Lifelong Learning and Professional Development? Examine how e-learning supports ongoing education and career growth through user stories and success examples.
• What Are the Security and Privacy Concerns in E-learning Platforms? Look into common security and privacy issues like data breaches and find best practices to keep student data safe.

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Biometrics Technology Topics

These topics provide insights into the many dimensions of biometric technology, such as its role in surveillance, healthcare, and data management:

• How Good Are Fingerprint Recognition Systems at Enhancing Security? Look into how reliable fingerprint recognition is and compare it to old-school methods like passwords.
• What Are the Privacy Issues with Facial Recognition Technology? Explore the ethical and privacy concerns around facial recognition and examine cases of misuse and potential regulations.
• How Does Iris Recognition Compare to Other Biometrics? Compare iris recognition to fingerprint and facial recognition in terms of accuracy, speed, security, and applications.
• Can Voice Recognition Technology Help People with Disabilities? Find out how voice recognition tech can help people with disabilities and look at how well it works.
• What Are the Implications of Biometric Authentication in Smartphones? Check out the security perks and risks of smartphone fingerprint and facial recognition by analyzing user acceptance, data security, and vulnerabilities.
• How Can Biometrics Be Added to Multi-Factor Authentication? See how integrating biometrics into multi-factor authentication, like combining fingerprint scans with passwords, makes systems more secure.
• What Are the Challenges of Biometric Technology in Public Spaces? Investigate the technical, ethical, and privacy issues of using biometric systems in public places, considering real-world examples like airport security.
• How Reliable Is Gait Recognition for Security Purposes? Look at how effective gait recognition is for security and where it's being used, including surveillance and criminal investigations.
• What Are the Applications of Biometric Technology in Healthcare? Explore how biometrics are used in healthcare for patient ID and securing medical records and consider privacy and data security.
• How Does Biometric Data Storage and Management Affect Security? Research how biometric data is stored and managed by examining methods like encryption and decentralized storage.

3D Printing Technology Research Paper Topics

These topics cover a wide range of applications and innovations in 3D printing technology:

• How Is 3D Printing Technology Revolutionizing Healthcare? Research this topic by analyzing how 3D printing is used to create custom prosthetics, implants, and even organs to improve patient outcomes and treatment options.
• What Are the Environmental Impacts of 3D Printing Technology? Investigate material usage, waste reduction, and energy consumption compared to traditional manufacturing methods.
• Can 3D Printing Technology Transform the Construction Industry? See how 3D printing is being used to build houses and infrastructure, with real-world examples like 3D-printed homes and bridges.
• How Is 3D Printing Technology Advancing Aerospace? Discover how 3D printing creates lightweight, complex parts for planes and spacecraft to make it more efficient and cost-effective.
• What Are the Ethical Implications of 3D Printing Technology in Manufacturing? Explore ethical issues like intellectual property rights, fake products, and the potential for harmful objects.
• How Can 3D Printing Technology Help Education and Research? Find out how 3D printing helps in schools and research by providing hands-on learning and cool projects like biology models or engineering prototypes.
• What Are the Advancements in 3D Printing Materials? Explore the development of new materials for 3D printing, such as biocompatible polymers, metals, and ceramics.
• How Is 3D Printing Technology Used in the Fashion Industry? Investigate the impact of 3D printing on fashion, from custom clothing to accessories and sustainable fashion solutions.
• What Are the Challenges of Scaling Up 3D Printing for Mass Production? Understand the difficulties of using 3D printing for mass production, including speed and cost issues, and discuss possible solutions.
• How Is 3D Printing Technology Used in the Automotive Industry? Explore the applications of 3D printing in automotive manufacturing, such as prototyping, custom parts, and lightweight components.

Interesting Technology Topics about Gaming

These topics explore various aspects of gaming technology, from virtual reality and AI to eSports and game design:

• How Is Artificial Intelligence Technology Helping with Video Game Development? Find out how AI makes NPCs smarter, generates new content on the fly, and personalizes gaming experiences.
• What Are the Ethical Implications of Loot Boxes and Microtransactions? Look into the ethics of loot boxes and microtransactions, including the risks of gambling addiction.
• How Is VR Technology Changing the Gaming Landscape? Check out how VR changes gaming by offering more immersion, changing gameplay mechanics, and player interaction.
• What Are the Pros and Cons of Cloud Gaming Technology? Research this topic by looking into cloud gaming services like Google Stadia and NVIDIA GeForce Now and how they affect accessibility and performance.
• How Do Graphics and Physics Engines Make Games More Realistic? See how advanced graphics and physics engines create realistic game worlds, with examples of games that push the boundaries of visuals and physics.
• What Is the Role of eSports in Modern Gaming? Investigate the rise of eSports, its impact on the gaming industry, professional gaming, and the growing spectator and economic opportunities.
• How Can Augmented Reality Technology Be Used in Gaming? See how AR is used in games like Pokémon Go and AR-enhanced board games and explore the future of AR gaming.
• What Are the Psychological Effects of Video Games on Players? Study the psychological effects of gaming, including improved cognitive skills and addiction and aggression, backed by research and case studies.
• How Do Multiplayer Online Games Promote Social Interaction? Look into how multiplayer games build communities, teamwork, virtual friendships, and the role of communication tools in these interactions.
• What Are the Security Challenges in Online Gaming? Research the security problems in online gaming, including hacking and cheating, and how developers protect players and fair play.

Medical Technology Research Questions

These research questions delve into the impact of cutting-edge medical technologies on diagnostics, treatment, and patient engagement:

• How Can AI Technology Improve Diagnostic Accuracy in Medical Imaging? Look into how AI enhances the accuracy of MRI, CT scans, and X-rays, boosting diagnosis and identifying potential limitations.
• What Are the Ethical Implications of Genetic Editing Technologies like CRISPR? Explore the ethical concerns around CRISPR and other genetic editing tools, discussing potential uses, risks, and regulatory challenges.
• How Effective Are Wearable Health Devices in Managing Chronic Conditions? Check out how wearables like smartwatches help manage chronic diseases such as diabetes and hypertension.
• What Is the Impact of Telemedicine on Patient Care? Study how telemedicine affects accessibility, care quality, and patient satisfaction, and how it’s integrated into traditional healthcare systems.
• How Can Robotics Enhance Surgical Procedures? Analyze the precision and outcomes of surgeries performed with robotic systems using case studies.
• What Are the Benefits and Challenges of Electronic Health Records? Investigate how EHRs are implemented in healthcare and assess their impact on patient care, data management, and efficiency.
• How Can 3D Printing Technology Be Used in Personalized Medicine? Explore how 3D printing creates customized implants, prosthetics, and medications and its potential to revolutionize personalized healthcare.
• What Are the Security and Privacy Concerns in Health Information Technology? Study the challenges of patient data in digital health and how to enhance cybersecurity and confidentiality.
• How Are Mobile Health Apps Changing Patient Engagement? Research this subject by examining how mobile health apps engage patients and self-management and how effectively they improve health outcomes.
• What Is the Potential of Virtual Reality in Medical Training and Therapy? Investigate the use of VR for medical education and patient therapy, assessing its effectiveness in treating conditions like PTSD and phobias.

Computer Science Technology Topics to Write About

These research topics highlight the key areas of interest within the field, offering a starting point for exploring innovative solutions and emerging trends:

• How Is Quantum Computing Technology Transforming Data Processing? See how quantum computing is revolutionizing data processing, making things like cryptography way faster than before.
• What Are the Ethical Implications of Artificial Intelligence? Dive into the ethical concerns of AI, like bias, job loss, and privacy issues, and why we need solid ethical guidelines.
• How Can Machine Learning Technology Improve Predictive Analytics? Look at how machine learning is making predictive analytics better in areas like finance and healthcare.
• What Are the Security Challenges in Internet of Things Devices? Check out the security issues with IoT devices, like smart home hacks and network vulnerabilities.
• How Are Blockchain Technologies Revolutionizing Data Security? Explore how blockchain ensures secure financial transactions in Bitcoin, tracks supply chains for authenticity, and keeps patient records safe in healthcare.
• What Is the Impact of Edge Computing Technology on Data Processing? See how edge computing reduces latency in smart cities by processing data locally and speeding up response times in autonomous vehicles.
• How Can Augmented Reality and Virtual Reality Transform Education? Find out how AR is used in classrooms to create interactive history lessons and how VR trains medical students with simulated surgeries.
• What Are the Advancements in Natural Language Processing? Look into the latest in NLP, like chatbots that provide customer service on websites, virtual assistants like Alexa, and real-time translation tools.
• How Does Cybersecurity Technology Evolve with Emerging Threats? Discover the latest threats like ransomware and phishing attacks and new defense strategies.
• What Are the Benefits and Challenges of Cloud Computing Technology? Explore the pros and cons of cloud computing for businesses, including cost savings and scalability in Netflix's streaming service.

The technology research topics we’ve covered represent the forefront of innovation and industry transformation. Understanding areas like AI personalization, ethical issues in facial recognition, the impact of 3D printing in healthcare, and advances in cybersecurity helps us grasp the future of technology and its societal implications.

Still thinking, 'How can I do my research paper ?' EssayHub's expert team is ready to help with all your essay and research needs, making your paper stand out.

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• Global ecommerce sales. (n.d.). Shopify. https://www.shopify.com/ca/blog/global-ecommerce-sales
• Telemedicine usage surge during COVID-19 pandemic. (2022). National Center for Biotechnology Information. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9058875/
• Electricity market report 2023. (2023). International Energy Agency. https://iea.blob.core.windows.net/assets/255e9cba-da84-4681-8c1f-458ca1a3d9ca/ElectricityMarketReport2023.pdf

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EIT lecturer’s research into ChatGPT in education shows challenges and promises

Amr van den Adel is a Senior Lecturer in the EIT School of Computing in Auckland.

ChatGPT in educational settings has potential benefits, but there are also challenges, research by an EIT lecturer has found.

The research, led by Amr van den Adel, a Senior Lecturer in the EIT School of Computing in Auckland, has recently been published in the renowned journal Educational Sciences , entitled ChatGPT promises and challenges in education: Computational and ethical perspectives . The other authors of the article are Ali Ahsan and Claire Davison, both from the University of Torrens Australia. Amr and the two other authors are all members of the Centre for Organisational Change and Agility at Torrens.

The study explores the integration of ChatGPT in educational settings. It highlights the potential benefits, but also addresses significant challenges like AI biases and the lack of emotional and interpersonal interactions typical in traditional education.

“The paper underscores the need for ongoing research to adapt educational strategies in response to rapidly evolving AI technologies, offering insights for educators, policymakers, and researchers,” says Amr.

“This paper investigates the integration of ChatGPT into educational environments, focusing on its potential to enhance personalised learning and the ethical concerns it raises. Through a systematic literature review, interest analysis, and case studies, the research scrutinises the application of ChatGPT in diverse educational contexts, evaluating its impact on teaching and learning practices.”

Amr says that the key findings reveal that ChatGPT can enrich education significantly by offering dynamic, personalised learning experiences and real-time feedback, thereby boosting teaching efficiency and learner engagement.

“However, the study also highlights significant challenges, such as biases in AI algorithms that may distort educational content and the inability of AI to replicate the emotional and interpersonal dynamics of traditional teacher–student interactions.”

“The paper acknowledges the fast-paced evolution of AI technologies, which may render some findings obsolete, underscoring the need for ongoing research to adapt educational strategies accordingly.”

Amr says that this study provides a balanced analysis of the opportunities and challenges of ChatGPT in education, emphasising ethical considerations and offering strategic insights for the responsible integration of AI technologies.

“These insights are valuable for educators, policymakers, and researchers involved in the digital transformation of education.”

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• Published: 09 September 2024

Navigating post-pandemic challenges through institutional research networks and talent management

• Muhammad Zada   ORCID: orcid.org/0000-0003-0466-4229 1 , 2 ,
• Imran Saeed 3 ,
• Jawad Khan   ORCID: orcid.org/0000-0002-6673-7617 4 &
• Shagufta Zada 5 , 6  

Humanities and Social Sciences Communications volume  11 , Article number:  1164 ( 2024 ) Cite this article

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• Business and management

Institutions actively seek global talent to foster innovation in the contemporary landscape of scientific research, education, and technological progress. The COVID-19 pandemic underscored the importance of international collaboration as researchers and academicians faced limitations in accessing labs and conducting research experiments. This study uses a research collaboration system to examine the relationship between organizational intellectual capital (Human and structural Capital) and team scientific and technological performance. Further, this study underscores the moderating role of top management support. Using a time-lagged study design, data were collected from 363 participants in academic and research institutions. The results show a positive relationship between organizational intellectual capital (Human and structural Capital) and team scientific and technological performance using a research collaboration system. Moreover, top management support positively moderates the study’s hypothesized relationships. The study’s findings contribute significantly to existing knowledge in this field, with implications for academia, researchers, and government focused on technology transmission, talent management, research creative collaboration, supporting innovation, scientific research, technological progress, and preparing for future challenges.

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Introduction.

Global talent management and the talent hunt within research and educational institutions have become extensively discussed topics in international human resource management (HRM) (Al et al., 2022 ). Global talent management is intricately connected to the notion of finding, managing, and facilitating the fetch of research, skills, techniques, and knowledge among team members and progress in education and technology (Kwok, 2022 ; Sommer et al., 2017 ). This topic assumes a greater position when it is looked at through the lens of research, academicians, and educational institutions serving as a means of achieving scientific and technological advancement and performance (Kaliannan et al., 2023 ; Patnaik et al., 2022 ). Effective knowledge management and transfer occur between teams engaged in cross-border research collaborations (Davenport et al., 2002 ; Fasi, 2022 ). Effective team management, global talent recruitment, and the exchange of scientific knowledge across national boundaries face different challenges due to the swift growth of economic and political fanaticism. This is particularly evident in advanced economies that rely heavily on knowledge-based industries (Vaiman et al., 2018 ). Research and educational sectors are encountering significant challenges in effectively hunting and managing international talent, particularly in the aftermath of the COVID-19 pandemic, during which approximately half of the global workforce faced the possibility of job loss (Almeida et al., 2020 ; Radhamani et al., 2021 ). Due to the implementation of lockdown measures by governments, many research intuitions are facing significant issues, and the pandemic has changed the situation; work was stuck, and scientists around the globe are thinking to be prepared for this kind of situation, which is possible through the use scientific research collaboration platforms. These platforms serve as a means to exchange research and knowledge, which is crucial in the talent hunt and management (Haak-Saheem, 2020 ). In the situation above, wherein limitations exist regarding the exchange of research and knowledge within the institutions, it becomes imperative for the top management of institutions to incentivize employees to engage the team in knowledge sharing actively and achieve team-level scientific and technological advancement. It can be achieved by implementing a research collaboration system that facilitates knowledge exchange and contributes to effective talent hunt and management (Haider et al., 2022 ; Xu et al., 2024 ).

A research collaboration network is a tool for scientific and technological advancement and talent management encompassing various processes and practices to facilitate the sharing, integration, translation, and transformation of scientific knowledge (Biondi & Russo, 2022 ). During and after the COVID-19 era characterized by travel restrictions, research networking platforms serve as valuable tools for students and researchers located in variance regions to engage in the exchange of research knowledge and achieve team-level scientific and technological advancement (Yang et al., 2024 ). Enhancing intellectual capital (IC) within the organizations is imperative within this framework (Pellegrini et al., 2022 ; Vătămănescu et al., 2023 ). Intellectual capital (IC) is the intangible assets owned by an organization that has the potential to generate value (Stewart, 1991 ). An organization’s intellectual capital (IC) includes human and structural capital (Marinelli et al., 2022 ). According to Vătămănescu et al. ( 2023 ), the organization can effectively manage the skills and abilities of its team members across different countries by properly utilizing both human and structural capital and establishing a strong research collaboration system with the help of top management support. This capability remains intact even during and after the COVID-19 pandemic. This study emphasizes the importance of talent hunt and management within research and educational institutions in the post-COVID-19 pandemic because of every country’s following implementation of lockdown measures. Our study focuses on the implication of facilitating the exchange of research, knowledge, and techniques among team members during and after this period. The effective way to share research expertise and techniques in such a scenario is through a research collaboration network (O’Dwyer et al., 2023 ).

While previous research has extensively explored talent management in various industries (Al Ariss, Cascio, & Paauwe, 2014 ; Susanto, Sawitri, Ali, & Rony, 2023 ), a noticeable gap exists in the body of knowledge regarding the discussion of global talent acquisition and management within research and academic institutions, particularly within volatile environments and about scientific and technological advancements (Harsch & Festing, 2020 ). The objective of this research is to fill this research gap.1) To investigate the strategies of how research and educational institutions hunt and manage gobble talent. 2)To analyze the impact of human and structural capital and team scientific and technological performance using a research collaboration system. 3) To examine the moderating effect of top management support on the IC to use the research collation network among institution research teams and scientific and technological performance.

In addition, current research contributes significantly to the literature by elucidating the pivotal role of organizational intellectual capital in strengthening scientific and technological performance through research collaborative networks. This study advances our grip on how internal resources drive innovation and research outcomes by empirically demonstrating the positive association between human and structural capital and team-level scientific and technological performance. Furthermore, the current study highlights the moderating effect of top management support, suggesting that management commitment can amplify the benefits of intellectual capital (human and structural capital). These results show a subtle perspective on how organizations can influence their intellectual assets to foster higher levels of productivity and innovation. The study’s theoretical contributions lie in integrating resource-based views and organizational theory with performance metrics, while its practical implications provide actionable insights for institutions aiming to optimize their intellectual resources and management practices. This research also sets the stage for future inquiries into the dynamics of intellectual capital and management support in various collaborative contexts.

Research theories, literature review, and hypotheses development

Research theories.

The focus of the current study pertains to the challenges surrounding talent management within institutions during and after the COVID-19 pandemic(Fernandes et al., 2023 ). Global talent management is intently linked to the objective of enhancing the intellectual capital of the organization (Zada et al., 2023 ). Considering the COVID-19 pandemic, which raised much more attention toward scientific and technological advancement, the academic sector has noticed an observable shift towards utilizing research collaboration platforms to share scientific knowledge effectively and achieve scientific and technological performance. Intellectual capital encompasses five distinct resource categories, as identified by Roos and Roos ( 1997 ), comprising three immaterial and two touchable resources. Intangible resources such as human capital, structural capital, and customer capital are complemented by tangible resources, encompassing monetary and physical assets. Global talent management encompasses human and structural capital management (Felin & Hesterly, 2007 ). The enhancement of talent management capabilities within the institution can be achieved by cultivating institution-specific competencies in both human and structural capital (Al Ariss et al., 2014 ). This concept lines up with the theoretical background of the resource-based view (RBV) theory presented by Barney ( 1991 ). According to this theory, organizations should prioritize examining their core resources to recognize valuable assets, competencies, and capabilities that can contribute to attaining a sustainable competitive advantage (Barney, 1991 ).

During and after the COVID-19 scenario, virtual platforms are utilized by institutions to engage students and staff abroad in research and knowledge exchange, which is part of global talent management. Staff possessing adequate knowledge repositories will likely participate in knowledge exchange activities. Therefore, organizations must improve their internal resources to enhance talent management, as per the fundamental principle of the RBV theory (Barney, 1991 ). Enhancing internal resources entails strengthening an organization’s human capital, which refers to its staff’s scientific research and technical skills and knowledge and structural capital. Strengthening these two resources can facilitate the institution in effectively sharing knowledge through a research collaboration platform, consequently enhancing their global talent management endeavors and contributing to the team’s scientific and technological performance.

In this research, we also utilize institutional theory (Oliver, 1997 ) and Scott ( 2008 ) as a framework to examine the utilization of research collaboration social platforms by faculty of institutions. Our focus is on exchanging research and technical knowledge within the climate of global talent management during and after the COVID-19 epidemic. According to Scott ( 2008 ), “Institutional theory is a widely recognized theoretical framework emphasizing rational myths, isomorphism, and legitimacy (p. 78)”. For electronic data interchange, the theory has been utilized in technology adoption research (Damsgaard, Lyytinen ( 2001 )) and educational institutes (J. et al., 2007 ). In the pandemic situation, institutional theory provides researchers with a framework to analyze the motivations of employees within institutions to engage in teams to achieve team-level scientific and technological performance through a research collaboration system. According to institutional theory, organizations should utilize a research collaboration network to ensure that their staff do not need to compromise their established norms, values, and expectations. During the COVID-19 pandemic, numerous countries implemented limitations on international movement as a preventive measure. Consequently, there has been a growing identification of the potential importance of utilizing an institutional research collaboration platform for facilitating the online exchange of knowledge, skills, research techniques, and global talent management among employees of institutions operating across various countries. The active support of staff by the top management of an institution can play a key role in expediting the implementation of social networks for research collaboration within the institution (Zada et al., 2023 ).

Literature review

An institution’s scientific and technological advancement is contingent upon optimal resource utilization (Muñoz et al., 2022 ). Global talent hunt and management encompasses utilizing information and communication technologies (ICT) to provide a way for the exchange of research knowledge and techniques, thereby enabling the implementation of knowledge-based strategies (Muñoz et al., 2022 ). In a high research-level turbulent environment, it becomes imperative to effectively manage human capital (HUC) to facilitate the appropriate exchange of research knowledge and techniques (Salamzadeh, Tajpour, Hosseini, & Brahmi, 2023 ). Research shows that transferring research knowledge and techniques across national boundaries, exchanging best practices, and cultivating faculty skills are crucial factors in maintaining competitiveness (Farahian, Parhamnia, & Maleki, 2022 ; Shao & Ariss, 2020 ).

It is widely acknowledged in scholarly literature that there is a prevailing belief among individuals that talent possesses movability and that research knowledge and techniques can be readily transferred (Bakhsh et al., 2022 ; Council, 2012 ). However, it is essential to note that the matter is more complex than it may initially appear (Biondi & Russo, 2022 ). The proliferation of political and economic nationalism in developed knowledge-based economies poses a significant risk to exchanging research knowledge and techniques among faculty members in research and educational institutions worldwide (Arocena & Sutz, 2021 ). During and after COVID-19, knowledge transfer can be effectively facilitated by utilizing a research collaboration network platform (Duan & Li, 2023 ; Sulaiman et al., 2022 ). This circumstance is noticeable within the domain of international research and development, wherein academic professionals have the opportunity to utilize research collaboration platforms as a means of disseminating valuable research knowledge and techniques to their counterparts in various nations (Jain et al., 2022 ).

The scientific and technological advancement of institutions linked by intuition research and development level and research and development depend on the intuition’s quality of research, knowledge, and management (Anshari & Hamdan, 2022 ). However, there is a need to enhance the research team’s capacity to learn and transfer research knowledge and techniques effectively. Research suggests that institutional human capital (HUC) is critical in managing existing resources and hunting international talent, particularly after the COVID-19 pandemic (Sigala, Ren, Li, & Dioko, 2023 ). Human capital refers to the combined implicit and crystal clear knowledge of employees within an institution and their techniques and capabilities to effectively apply this knowledge to achieve scientific and technological advancements (Al-Tit et al., 2022 ). According to Baron and Armstrong ( 2007 ) Human capital refers to the abilities, knowledge, techniques, skills, and expertise of individuals, particularly research team members, that are relevant to the current task.

Furthermore, HUC encompasses the scope of individuals who can contribute to this reservoir of research knowledge, techniques, and expertise through individual learning. As the literature shows, the concept of IC encompasses the inclusion of structural capital (STC), which requires fortification through the implementation of a proper global talent acquisition and management system (Pak et al., 2023 ; Phan et al., 2020 ). STC encompasses various mechanisms to enhance an institution’s performance and productivity (Barpanda, 2021 ). STC is extensively acknowledged as an expedited framework for HUC, as discussed by Bontis ( 1998 ) and further explored by Gogan, Duran, and Draghici ( 2015 ). During and after the COVID-19 epidemic, a practical approach to global talent management involves leveraging research collaboration network platforms to facilitate knowledge exchange among research teams (Arslan et al., 2021 ). However, the crucial involvement of top management support is imperative to effectively manage talent by utilizing research collaboration network platforms for knowledge transfer (Zada et al., 2023 ). Nevertheless, the existing body of knowledge needs to adequately explore the topic of talent management about knowledge transfer on research collaboration platforms, particularly in the context of institution-active management support (Tan & Md. Noor, 2013 ).

Conceptual model and research hypothesis

By analyzing pertinent literature and theoretical frameworks, we have identified the factors influencing staff intention in research and academic institutions to utilize research collaboration networks after the COVID-19 pandemic and achieve scientific and technical performance. This study aims to explain the determinants. Additionally, this study has considered the potential influence of top management support as a moderator on the associations between education and research institution staff intention on IC to utilize research collaboration platforms in the post-COVID-19 era and predictors. Through this discourse, we shall generate several hypotheses to serve as the basis for constructing a conceptual model (see Fig. 1 ).

Relationships between study variables: human capital, structural capital, top management support, and team scientific and technological performance. Source: authors’ development.

Human capital and team scientific and technological performance

According to Dess and Picken ( 2000 ), HUC encompasses individuals’ capabilities, knowledge, skills, research techniques, and experience, including staff and supervisors, relevant to the specific task. Human capital also refers to the ability to pay to this reservoir of knowledge, techniques, and expertize through individual learning (Dess & Picken, 2000 ). HUC refers to the combinations of characteristics staff possess, including but not limited to research proficiency, technical aptitude, business acumen, process comprehension, and other similar competencies (Kallmuenzer et al., 2021 ). The HUC is considered an institutional repository of knowledge, as Bontis and Fitz‐enz ( 2002 ) indicated, with its employees serving as representatives. The concept of HUC refers to the combined abilities, research proficiency, and competencies that individuals possess to address and resolve operational challenges within an institutional setting (Barpanda, 2021 ; Yang & Xiangming, 2024 ). The human capital possessed by institutions includes crucial attributes that allow organizations to acquire significant internal resources that are valuable, difficult to replicate, scarce, and cannot be substituted. It aligns with the theoretical framework of the RBV theory, as suggested by Barney ( 1991 ). IC is extensively recognized as a main factor in revitalizing organizational strategy and promoting creativity and innovation. It is crucial to enable organizations to acquire and effectively disseminate knowledge among their employees, contribute to talent management endeavors, and achieve scientific and technological performance (Alrowwad et al., 2020 ; He et al., 2023 ). Human capital is linked to intrinsic aptitude, cognitive capabilities, creative problem-solving, exceptional talent, and the capacity for originality (Bontis & Fitz‐enz, 2002 ). In talent management, there is a focus on enhancing scientific and technological performance and development. According to Shao and Ariss ( 2020 ), HUC is expected to strengthen employee motivation to utilize research collaboration networks for scientific knowledge-sharing endeavors. Based on these arguments, we proposed that.

Hypothesis 1 Human capital (HUC) positively impacts team scientific and technological performance using a research collaboration system.

Structural capital and team scientific and technological Performance

According to Mehralian, Nazari, and Ghasemzadeh ( 2018 ) structural capital (STC) encompasses an organization’s formalized knowledge assets. It consists of the structures and mechanisms employed by the institution to enhance its talent management endeavors. The concept of STC is integrated within the framework of institutions’ programs, laboratory settings, and databases (Cavicchi & Vagnoni, 2017 ). The significance of an organization’s structural capital as an internal tangible asset that bolsters its human capital has been recognized by scholars such as Secundo, Massaro, Dumay, and Bagnoli ( 2018 ), and This concept also lines up with the RBV theory (J. Barney, 1991 ). The strategic assets of an organization encompass its capabilities, organizational culture, patents, and trademarks (Gogan et al., 2015 ).

Furthermore, Birasnav, Mittal, and Dalpati ( 2019 ) Suggested that these strategic assets promote high-level organizational performance, commonly called STC. Literature shows that STC encompasses an organization’s collective expertise and essential knowledge that remains intact even when employees depart (Alrowwad et al., 2020 ; Mehralian et al., 2018 ; Sarwar & Mustafa, 2023 ). The institution’s socialization, training, and development process facilitates the transfer of scientific research knowledge, skills, and expertise to its team (Arocena & Sutz, 2021 ; Marchiori et al., 2022 ). The STC is broadly recognized as having important potential and is a highly productive resource for generating great value. STC motivates its team member to share expertise with their counterparts at subordinate organizations by utilizing an institution’s research collaboration network and achieving team-level scientific and technological performance. This method remains effective even in challenging environments where traditional means of data collection, face-to-face meetings, and travel are not feasible (Secundo et al., 2016 ). In light of the above literature and theory, we propose the following hypothesis.

Hypothesis 2: Structural capital (STC) positively impacts team scientific and technological performance using a research collaboration system.

Top management support as a moderator

If the relationship between two constructs is not constant, the existence of a third construct can potentially affect this relationship by enhancing or diminishing its strength. In certain cases, the impact of a third construct can adjust the trajectory of the relationship between two variables. The variable in question is commonly called the “moderating variable.” According to Zada et al. ( 2023 ), top management support to leaders efficiently encourages team members within institutions to share research scientific knowledge with their counterparts in different countries through international research collaboration systems. Similarly, another study shows that the active endorsement of the top management significantly affects the development of direct associations, thereby influencing the team and organization’s overall performance (Biondi & Russo, 2022 ; Phuong et al., 2024 ). Different studies have confirmed that top management support is crucial in fostering a conducive knowledge-sharing environment by offering necessary resources (Ali et al., 2021 ; Lee et al., 2016 ; Zada et al., 2023 ). During and after the COVID-19 epidemic, numerous nations implemented nonessential travel restrictions and lockdown measures. In the given context, utilizing a research collaboration system would effectively facilitate the exchange of research, skills, and knowledge among staff belonging to various subsidiaries of an institution (Rådberg & Löfsten, 2024 ; Rasheed et al., 2024 ). However, it is common for researchers to exhibit resistance to adopting a novel research technique, often citing various justifications for their reluctance. To address the initial hesitance of employees at subsidiary institutes towards utilizing research collaborative networking within the institute, top management must employ strategies that foster motivation, encouragement, and incentives. These measures help create an atmosphere where team members feel empowered to engage with the new system freely. Institutional theory asserts that top management support is crucial for aligning talent management with institutional norms. Human and structural capital, pivotal within the institutional framework, contributes to an institution’s capacity to attract and retain talent, enhancing legitimacy. Adaptation to scientific and technological advancements is imperative for international institutional competitiveness, as institutional theory dictates (Oliver, 1997 ). Grounded on the above discussion, we have hypothesized.

Hypothesis 3a : Top management support moderates the relationship between human capital (HUC) and team scientific and technological performance. Specifically, this relationship will be stronger for those with higher top management support and weaker for those with lower top management support.

Hypothesis 3b : Top management support moderates the relationship between structural capital (STC) and team scientific and technological performance through the use of research collaboration network platforms. Specifically, this relationship will be stronger for those with higher top management support and weaker for those with lower top management support.

Methods data and sample

Sample and procedures.

To test the proposed model, we collected data from respondents in China’s research and academic sector in three phases to mitigate standard method variance (Podsakoff, MacKenzie, Lee, & Podsakoff, 2003 ). In the first phase (T1-phase), respondents rated human capital, structural capital, and demographic information. After one month, respondents rated the team’s scientific and technological performance in the second phase (T2-phase). Following another one-month interval, respondents were asked to rate top management support in the third phase (T3-phase). In the first phase, after contacting 450 respondents, we received 417 usable questionnaires (92.66%). In the second phase, we received 403 usable questionnaires. In the third phase, we received 363 usable questionnaires (90.07%), constituting our final sample for interpreting the results. The sample comprises 63.4% male and 36.6% female respondents. The age distribution of the final sample was as follows: 25–30 years old (6.6%), 31–35 years old (57%), 36–40 years old (19.8%), and above 40 years old (16.5%). Regarding respondents’ experience, 45.7% had 1–5 years, 39.4% had 6–10 years, 11.3% had 11–15 years, and 3.6% had over 16 years. According to the respondents’ levels of education, 4.1% had completed bachelor’s degrees, 11.6% had earned master’s degrees, 78.8% were doctorate (PhD) scholars, and 5.5% were postdoctoral and above.

Measurement

To measure the variables, the current study adopted a questionnaire from previous literature, and age, gender, education, and experience were used as control variables. A five-point Likert scale was used (1 = strongly disagree to 5 = strongly agree). Human capital (HUC) was measured through an eight-item scale adopted by Kim, Atwater, Patel, and Smither ( 2016 ). The sample item is “The extent to which human capital of research and development department is competitive regarding team performance”. The self-reported scale developed by Nezam, Ataffar, Isfahani, and Shahin ( 2013 ) was adopted to measure structural capital. The scale consists of seven items. The sample scale item is “My organization emphasizes IT investment.” In order to measure top management support, a six-item scale was developed by Singh, Gupta, Busso, and Kamboj ( 2021 ), was adopted, and sample item includes “Sufficient incentives were provided by top management (TM) for achieving scientific and technological performance.” Finlay, the self-reported scale developed by Gonzalez-Mulé, Courtright, DeGeest, Seong, and Hong ( 2016 ) was adopted to gauge team scientific and technological performance and scales items are four. The sample item is “This team achieves its goals.”

Assessment of measurement model

In the process of employing AMOS for analysis, the initial step encompasses an assessment of the model to determine the strength and validity of the study variables. The evaluation of variable reliability conventionally revolves around two key aspects, which are indicator scale reliability and internal reliability. More precisely, indicator reliability is deemed to be recognized when factor loadings exceed the threshold of 0.60. In parallel, internal consistency reliability is substantiated by the attainment of values exceeding 0.70 for both Cronbach’s alpha and composite reliability, aligning with well-established and recognized guidelines (Ringle et al., 2020 ).

To gauge the reliability of construct indicators, we utilized two key metrics which are composite reliability (CR) and average variance extracted (AVE). The CR values for all variables were notably high, exceeding 0.70 and falling within the range of 0.882 to 0.955. This signifies a robust level of reliability for the indicators within each construct. Furthermore, the AVE values, which indicate convergent validity, exceeded the minimum threshold of 0.50, with each construct value varying from 0.608 to 0.653, thus affirming the presence of adequate convergent validity.

In addition to assessing convergent validity, we also examined discriminant validity by scrutinizing the cross-loadings of indicators on the corresponding variables and the squared correlations between constructs and AVE values. Our findings indicated that all measures exhibited notably stronger loadings on their intended constructs, thereby underscoring the measurement model’s discriminant validity.

Discriminant validity was recognized by observing average variance extracted (AVE) values that exceeded the squared correlations between constructs, as indicated in Table 1 . In conjunction with the Composite Reliability (CR) and AVE values, an additional discriminant validity assessment was conducted through a Heterotrait-Monotrait Ratio (HTMT) analysis. This analysis entailed a comparison of inter-construct correlations against a predefined upper threshold of 0.85. The results demonstrated that all HTMT values remained significantly below this threshold, affirming satisfactory discriminant validity for each variable (Henseler et al., 2015 ). Every HTMT value recorded was situated beneath the specified threshold, thereby supplying supplementary confirmation regarding the constructs’ discriminant validity. In summary, the results of the outer model assessment indicate that the variables showcased commendable levels of reliability and validity, with the discriminant validity being suitably and convincingly established.

Moreover, correlation Table 2 shows that human capital is significantly and positively correlated with structural capital ( r  = 0.594**), TMS ( r  = 0.456 **), and STP ( r  = 0.517**). Structural capital is also significantly and positively correlated with TMS ( r  = 0.893**) and STP ( r  = 0.853**). Furthermore, TMS is significantly and positively correlated with STP (0.859**).

Confirmatory factor analysis (CFA)

A comprehensive confirmatory factor analysis was estimated by employing the software AMOS version 24 to validate the distinctiveness of the variables. CFA shows the fitness of the hypothesized four factors model, including human capital, structural capital, top management support, and team scientific and technological performance, as delineated in Table 3 ; the results show that the hypothesized four-factor model shows fit and excellent alternative models. Consequently, The study variables demonstrate validity and reliability, which makes the dimension model appropriate for conducting a structural path analysis, as advocated by Hair, Page, and Brunsveld ( 2019 ).

Hypotheses testing

This study used the bootstrapping approach, which involves 5,000 bootstrap samples to test the proposed study model and assess the significance and strength of the structural correlations. Using this approach, bias-corrected confidence intervals and p-values were generated in accordance with Streukens and Leroi-Werelds ( 2016 ) guidelines. First, we did an analysis that entailed checking the path coefficients and their connected significance. The findings, as shown in Table 4 , validate Hypothesis 1, revealing a positive correlation between HUC and STP ( β  = 0.476, p  < 0.001). Additionally, the finding validates Hypothesis 2, highlighting a positive association between structural capital and STP ( β  = 0.877, p  < 0.001). For the moderation analysis, we utilized confidence intervals that do not encompass zero, per the guidelines that Preacher and Hayes ( 2008 ) recommended.

In our analysis, we found support for Hypothesis 3a, which posited that top management support (TMS) moderates the relationship between human capital (HUC) and team scientific and technological performance (STP). The results in Table 4 showed that the moderating role, more precisely, the interaction between HUC and TMS, was substantial and positive ( β  = −0.131, p  = 0.001). These results suggest that TMS enhances the positive association between HUC and STP, as shown in Fig. 2 . Consequently, we draw the conclusion that our data substantiates hypothesis 3a. Furthermore, Hypothesis 3b posited that TMS moderates the relationship between STC and STP. The results indicate that TMS moderates the association between STC and STP ( β  = −0.141, p  = 0.001, as presented in Table 4 and Fig. 3 ).

The moderating effect of top management support (TMS) on the relationship between human capital (HUC) and team scientific and technological performance (STP). Source: authors’ development.

The moderating effect of top management support (TMS) on the relationship between structural capital (SUC) and team scientific and technological performance (STP). Source: authors’ development.

The current study highlights the importance of research and academic institutions effectively enhancing their scientific and technological capabilities to manage their global talent within an international research collaboration framework and meet future challenges. Additionally, it underscores the need for these institutions to facilitate scientific knowledge exchange among their employees and counterparts in different countries. The enhancement of talent management through the exchange of scientific research knowledge can be most effectively accomplished by utilizing a collaborative research system between educational and research institutions (Shofiyyah et al., 2023 ), particularly in the context of the COVID-19 landscape. This study has confirmed that enhancing the higher education and research institutions’ human capital (HUC) and structural capital (STC) could attract and maintain global talent management and lead to more effective scientific and technological progress. The findings indicate that the utilization of human capital (HUC) has a significant and positive effect on scientific and technological term performance (STP) (Hypothesis 1), which is consistent with previous research (Habert & Huc, 2010 ). This study has additionally demonstrated that the implementation of s tructural capital (STC) has a significant and positive effect on team scientific and technological performance (STP), as indicated by hypothesis 2, which is also supported by the previous studies finding in different ways (Sobaih et al., 2022 ). This study has also shown that top management support moderates the association between human capital (HUC) and team scientific and technological performance hypothesis 3a and the association between structural capital (STC) and team scientific and technological performance hypothesis 3b. These hypotheses have garnered support from previous studies’ findings in different domains (Chatterjee et al., 2022 ). The study’s empirical findings also confirm the substantial moderating influence exerted by top management support on the relationships between HUC and STP described in hypothesis 3a and STC and STP described in hypothesis 3b, as evidenced by the results presented in Table 4 . Additionally, graphical representations are conducted to investigate the impacts on hypotheses 3a and 3b resulting from the application of high-top management support (TMS) and weak TMS.

The effect of high-top management support (TMS) and weak TMS on Hypothesis 3a is depicted in Fig. 2 . The solid line illustrates the effects of robust TMS on Hypothesis 3a, while the dashed line shows the effects of weak TMS on Hypothesis 3a. The graphic description validates that, as human capital (HUC) increases, team scientific and technological performance (STP) is more pronounced when influenced by robust TMS than weak TMS. This is evidenced by the steeper slope of the solid line in comparison to the dashed line. This finding suggests that employees within the research and academic sectors are more likely to utilize research collaboration networks when influenced by HUC and receive strong support from the organization’s top management.

The graph in Fig. 3 shows the impact of solid top management support (TMS) and weak TMS on Hypothesis 3b. The dotted lines continuous on the graph correspond to the effects of robust TMS and weak TMS, respectively. Figure 3 illustrates that, with increasing top management support (TMS), scientific and technological performance (STP) increase is more significant for robust TMS than weak TMS. This is evident from the steeper slope of the continuous line compared to the slope of the dotted line. This finding suggests that employees within universities and institutes are more likely to engage in research collaboration systems when they receive strong support from top management despite enhanced structural support.

Theoretical contribution

The current study makes significant contributions to the existing body of knowledge by exploring the intricate dynamics between organizational intellectual capital and team performance within scientific and technological research, especially during the unprecedented times brought about by the COVID-19 pandemic. Through its detailed examination of human and structural capital, alongside the moderating impact of top management support, the study provides a multi-faceted understanding of how these factors interact to enhance team outcomes.

This research enriches the literature on intellectual capital by providing empirical evidence on the positive association between HUC and STC and team performance. HUC, which includes employees’ skills, knowledge, and expertise, is a critical driver of innovation and productivity (Lenihan et al., 2019 ). The study highlights how a team’s collective intelligence and capabilities can lead to superior scientific and technological outputs. This finding aligns with and extends previous research that underscores the importance of skilled HR in achieving organizational success (Luo et al., 2023 ; Salamzadeh et al., 2023 ). Structural capital, encompassing organizational processes, databases, and intellectual property, contributes significantly to team performance(Ling, 2013 ). The study illustrates how well-established structures and systems facilitate knowledge sharing, streamline research processes, and ultimately boost the efficiency and effectiveness of research teams. This aspect of the findings adds depth to the existing literature by demonstrating the tangible benefits of investing in robust organizational infrastructure to support research activities.

Another essential contribution of this study is integrating a research collaboration network as a facilitating factor. This network, including digital platforms and tools that enable seamless communication and collaboration among researchers, has become increasingly vital in remote work and global collaboration (Mitchell, 2023 ). By examining how these systems leverage HUC and STC to enhance team performance, the study provides a practical understanding of the mechanisms through which technology can facilitate team scientific and technological performance.

One of the most novel contributions of this study is its emphasis on the moderating role of top management support. The findings suggest that when top management actively supports research initiatives, provides required resources, and fosters innovation, the positive effects of human and structural capital on team performance are amplified (Zada et al., 2023 ). This aspect of the study addresses a gap in the literature by highlighting the critical influence of top management on the success of intellectual capital investments. It underscores the importance of managerial involvement and strategic vision in driving research excellence and team scientific and technological performance.

Practical implications

The practical implications of the current study are weightage for organizations aiming to enhance their research and innovation capabilities and boost their scientific and technical progress. Organizations should prioritize recruiting, training, and retaining highly skilled and trained researchers and professionals globally. This can be achieved through targeted hiring practices, offering competitive compensation and retention, providing continuous professional development opportunities, and developing proper research collaboration networks. Organizations can leverage their expertize to drive innovative research and technological advancements by nurturing a global, talented workforce. Investing in robust organizational structures, processes, and systems is critical (Joseph & Gaba, 2020 ). This includes developing comprehensive databases, implementing efficient research processes, securing intellectual property, and strengthening collaborations. These factors support efficient knowledge sharing and streamline research activities, leading to higher productivity and quality research outcomes (Azeem et al., 2021 ). Organizations should ensure that their infrastructure is adaptable and can support remote and collaborative work environments.

The current study emphasizes the importance of digital platforms and tools facilitating research collaboration. Organizations should adopt advanced research collaboration networks that enable seamless communication, data sharing, and talent management. These systems are particularly crucial in a globalized research environment where team members may be geographically dispersed. Investing in such technology can significantly enhance research projects’ productivity in a sustainable way (Susanto et al., 2023 ). Top Management plays a vital role in the success of research initiatives and contributes to scientific and technological performance. Top management should actively support research teams by providing required resources, setting clear strategic directions, and fostering a culture of innovation. This includes allocating budgets for organizational research and development, encouraging cross-border collaboration, recognizing and rewarding research achievements, and enhancing overall performance. Effective Management ensures that the intellectual capital within the organization is fully utilized and aligned with organizational developmental goals (Paoloni et al., 2020 ). Organizations should create a working atmosphere that encourages research, creativity, and innovation. This can be done by establishing innovation labs, promoting interdisciplinary research, recruiting international talents, sharing research scholars, and encouraging the sharing of ideas across different departments globally. A research-oriented culture that supports innovation can inspire researchers to pursue groundbreaking work and contribute to the organization’s competitive edge.

Limitations and future research direction

The research presents numerous theoretical and practical implications; however, it has. The potential limitation of common method bias could impact the findings of this study. This concern arises because the data for the study variables were obtained from a single source and relied on self-report measures (Podsakoff, 2003 ). Therefore, it is recommended that future studies be conducted longitudinally to gain additional insights into organizations’ potential to enhance efficiency. Furthermore, it is essential to note that the sample size for this study was limited to 363 respondents who were deemed usable. These respondents were drawn from only ten research and academic institutions explicitly targeting the education and research sector.

Consequently, this restricted sample size may hinder the generalizability of the findings. Future researchers may employ a larger sample size and implement a more systematic approach to the organization to enhance the comprehensiveness and generalizability of findings in the context of global talent management and scientific and technological advancement. Furthermore, in future investigations, researchers may explore alternative boundary conditions to ascertain whether additional factors could enhance the model’s efficacy.

Numerous academic studies have emphasized the significance of examining talent management outcomes in global human resource management (HRM). The continuous international movement of highly qualified individuals is viewed as a driving force behind the development of new technologies, the dissemination of scientific findings, and the collaboration between institutions worldwide. Every organization strives to build a qualified and well-trained team, and the personnel department of the organization focuses on finding ways to transfer knowledge from experienced workers to new hires. This study uses a research collaboration system to examine the relationship between organizational intellectual capital (Human and structural Capital) and team scientific and technological performance. Further, this study underscores the moderating role of top management support. These findings offer a nuanced perspective on how organizations can leverage their intellectual assets to foster higher productivity and innovation, especially in emergencies.

Data availability

Due to respondents’ privacy concerns, data will not be publicly available. However, it can be made available by contacting the corresponding author at a reasonable request.

Al-Tit AA, Al-Ayed S, Alhammadi A, Hunitie M, Alsarayreh A, Albassam W (2022) The impact of employee development practices on human capital and social capital: the mediating contribution of knowledge management. J Open Innov 8(4):218

Article   Google Scholar  

Al Ariss A, Cascio WF, Paauwe J (2014) Talent management: current theories and future research directions. J World Bus 49(2):173–179

Al Jawali H, Darwish TK, Scullion H, Haak-Saheem W (2022) Talent management in the public sector: empirical evidence from the Emerging Economy of Dubai. Int J Hum Resour Manag 33(11):2256–2284

Ali M, Li Z, Khan S, Shah SJ, Ullah R (2021) Linking humble leadership and project success: the moderating role of top management support with mediation of team-building. Int J Manag Proj Bus 14(3):545–562

Almeida F, Santos JD, Monteiro JA (2020) The challenges and opportunities in the digitalization of companies in a post-COVID-19 World. IEEE Eng Manag Rev 48(3):97–103

Alrowwad AA, Abualoush SH, Masa’deh RE (2020) Innovation and intellectual capital as intermediary variables among transformational leadership, transactional leadership, and organizational performance. J Manag Dev 39(2):196–222

Anshari M, Hamdan M (2022) Understanding knowledge management and upskilling in Fourth Industrial Revolution: transformational shift and SECI model. VINE J Inf Knowl Manag Syst 52(3):373–393

Google Scholar  

Arocena R, Sutz J (2021) Universities and social innovation for global sustainable development as seen from the south. Technol Forecast Soc change 162:120399

Article   PubMed   Google Scholar  

Arslan A, Golgeci I, Khan Z, Al-Tabbaa O, Hurmelinna-Laukkanen P (2021) Adaptive learning in cross-sector collaboration during global emergency: conceptual insights in the context of COVID-19 pandemic. Multinatl Bus Rev 29(1):21–42

Azeem M, Ahmed M, Haider S, Sajjad M (2021) Expanding competitive advantage through organizational culture, knowledge sharing and organizational innovation. Technol Soc 66:101635

Bakhsh K, Hafeez M, Shahzad S, Naureen B, Faisal Farid M (2022) Effectiveness of digital game based learning strategy in higher educational perspectives. J Educ e-Learn Res 9(4):258–268

Barney J (1991) Firm resources and sustained competitive advantage. J Manag 17(1):99–120

Barney JB, Clark DN (2007) Resource-based theory: Creating and sustaining competitive advantage. Oup Oxford

Baron A, Armstrong M (2007) Human capital management: achieving added value through people. Kogan Page Publishers

Barpanda S (2021) Role of human and structural capital on performance through human resource practices in Indian microfinance institutions: a mediated moderation approach. Knowl Process Manag 28(2):165–180

Biondi L, Russo S (2022) Integrating strategic planning and performance management in universities: a multiple case-study analysis. J Manag Gov 26(2):417–448

Birasnav M, Mittal R, Dalpati A (2019) Integrating theories of strategic leadership, social exchange, and structural capital in the context of buyer–supplier relationship: an empirical study. Glob J Flex Syst Manag 20:219–236

Bontis N (1998) Intellectual capital: an exploratory study that develops measures and models. Manag Decis 36(2):63–76

Bontis N, Fitz‐enz J (2002) Intellectual capital ROI: a causal map of human capital antecedents and consequents. J Intellect Cap 3(3):223–247

Cavicchi C, Vagnoni E (2017) Does intellectual capital promote the shift of healthcare organizations towards sustainable development? Evidence from Italy. J Clean Prod 153:275–286

Chatterjee S, Chaudhuri R, Vrontis D (2022) Does remote work flexibility enhance organization performance? Moderating role of organization policy and top management support. J Bus Res 139:1501–1512

Council NR (2012) Education for life and work: developing transferable knowledge and skills in the 21st century. National Academies Press

Davenport S, Carr A, Bibby D (2002) Leveraging talent: spin–off strategy at industrial research. RD Manag 32(3):241–254

Dess GG, Picken JC (2000) Changing roles: Leadership in the 21st century. Organ Dyn 28(3):18–34

Duan W, Li C (2023) Be alert to dangers: collapse and avoidance strategies of platform ecosystems. J Bus Res 162:113869

Farahian M, Parhamnia F, Maleki N (2022) The mediating effect of knowledge sharing in the relationship between factors affecting knowledge sharing and reflective thinking: the case of English literature students during the COVID-19 crisis. Res Pract Technol Enhanc Learn 17(1):1–25

Fasi MA (2022) An overview on patenting trends and technology commercialization practices in the university Technology Transfer Offices in USA and China. World Pat Inf 68:102097

Felin T, Hesterly WS (2007) The knowledge-based view, nested heterogeneity, and new value creation: philosophical considerations on the locus of knowledge. Acad Manag Rev 32(1):195–218

Fernandes C, Veiga PM, Lobo CA, Raposo M (2023) Global talent management during the COVID‐19 pandemic? The Gods must be crazy! Thunderbird Int Bus Rev 65(1):9–19

Gogan LM, Duran DC, Draghici A (2015) Structural capital—a proposed measurement model. Procedia Econ Financ 23:1139–1146

Gonzalez-Mulé E, Courtright SH, DeGeest D, Seong J-Y, Hong D-S (2016) Channeled autonomy: the joint effects of autonomy and feedback on team performance through organizational goal clarity. J Manag 42(7):2018–2033

Haak-Saheem W (2020) Talent management in Covid-19 crisis: how Dubai manages and sustains its global talent pool. Asian Bus Manag 19:298–301

Habert B, Huc C (2010) Building together digital archives for research in social sciences and humanities. Soc Sci Inf 49(3):415–443

Haider SA, Akbar A, Tehseen S, Poulova P, Jaleel F (2022) The impact of responsible leadership on knowledge sharing behavior through the mediating role of person–organization fit and moderating role of higher educational institute culture. J Innov Knowl 7(4):100265

Hair JF, Page M, Brunsveld N (2019) Essentials of business research methods. Routledge

Harsch K, Festing M (2020) Dynamic talent management capabilities and organizational agility—a qualitative exploration. Hum Resour Manag 59(1):43–61

He S, Chen W, Wang K, Luo H, Wang F, Jiang W, Ding H (2023) Region generation and assessment network for occluded person re-identification. IEEE Trans Inf Forensic Secur 19:120–132

Henseler J, Ringle CM, Sarstedt M (2015) A new criterion for assessing discriminant validity in variance-based structural equation modeling. J Acad Mark Sci 43:115–135

Jain N, Thomas A, Gupta V, Ossorio M, Porcheddu D (2022) Stimulating CSR learning collaboration by the mentor universities with digital tools and technologies—an empirical study during the COVID-19 pandemic. Manag Decis 60(10):2824–2848

Joseph J, Gaba V (2020) Organizational structure, information processing, and decision-making: a retrospective and road map for research. Acad Manag Ann 14(1):267–302

Kaliannan M, Darmalinggam D, Dorasamy M, Abraham M (2023) Inclusive talent development as a key talent management approach: a systematic literature review. Hum Resour Manag Rev 33(1):100926

Kallmuenzer A, Baptista R, Kraus S, Ribeiro AS, Cheng C-F, Westhead P (2021) Entrepreneurs’ human capital resources and tourism firm sales growth: a fuzzy-set qualitative comparative analysis. Tour Manag Perspect 38:100801

Kim KY, Atwater L, Patel PC, Smither JW (2016) Multisource feedback, human capital, and the financial performance of organizations. J Appl Psychol 101(11):1569

Kwok L (2022) Labor shortage: a critical reflection and a call for industry-academia collaboration. Int J Contemp Hosp Manag 34(11):3929–3943

Lee J-C, Shiue Y-C, Chen C-Y (2016) Examining the impacts of organizational culture and top management support of knowledge sharing on the success of software process improvement. Comput Hum Behav 54:462–474

Lenihan H, McGuirk H, Murphy KR (2019) Driving innovation: public policy and human capital. Res policy 48(9):103791

Ling Y-H (2013) The influence of intellectual capital on organizational performance—knowledge management as moderator. Asia Pac J Manag 30(3):937–964

Luo J, Zhuo W, Xu B (2023) The bigger, the better? Optimal NGO size of human resources and governance quality of entrepreneurship in circular economy. Manag Decis (ahead-of-print) https://doi.org/10.1108/MD-03-2023-0325

Damsgaard J, Lyytinen K (2001) The role of intermediating institutions in the diffusion of electronic data interchange (EDI): how industry associations intervened in Denmark, Finland, and Hong Kong. Inf Soc 17(3):195–210

Marchiori DM, Rodrigues RG, Popadiuk S, Mainardes EW (2022) The relationship between human capital, information technology capability, innovativeness and organizational performance: an integrated approach. Technol Forecast Soc Change 177:121526

Marinelli L, Bartoloni S, Pascucci F, Gregori GL, Briamonte MF (2022) Genesis of an innovation-based entrepreneurial ecosystem: exploring the role of intellectual capital. J Intellect Cap 24(1):10–34

Mehralian G, Nazari JA, Ghasemzadeh P (2018) The effects of knowledge creation process on organizational performance using the BSC approach: the mediating role of intellectual capital. J Knowl Manag 22(4):802–823

Mitchell A (2023) Collaboration technology affordances from virtual collaboration in the time of COVID-19 and post-pandemic strategies. Inf Technol People 36(5):1982–2008

Muñoz JLR, Ojeda FM, Jurado DLA, Peña PFP, Carranza CPM, Berríos HQ, Vasquez-Pauca MJ (2022) Systematic review of adaptive learning technology for learning in higher education. Eurasia J Educ Res 98(98):221–233

Nezam MHK, Ataffar A, Isfahani AN, Shahin A (2013) The impact of structural capital on new product development performance effectiveness—-the mediating role of new product vision and competitive advantage. Int J Hum Resour Stud 3(4):281

O’Dwyer M, Filieri R, O’Malley L (2023) Establishing successful university–industry collaborations: barriers and enablers deconstructed. J Technol Transf 48(3):900–931

Oliver C (1997) Sustainable competitive advantage: combining institutional and resource‐based views. Strateg Manag J 18(9):697–713

Pak J, Heidarian Ghaleh H, Mehralian G (2023) How does human resource management balance exploration and exploitation? The differential effects of intellectual capital‐enhancing HR practices on ambidexterity and firm innovation. Human Resource Manag https://doi.org/10.1002/hrm.22180

Paoloni M, Coluccia D, Fontana S, Solimene S (2020) Knowledge management, intellectual capital and entrepreneurship: a structured literature review. J Knowl Manag 24(8):1797–1818

Patnaik S, Munjal S, Varma A, Sinha S (2022) Extending the resource-based view through the lens of the institution-based view: a longitudinal case study of an Indian higher educational institution. J Bus Res 147:124–141

Pellegrini L, Aloini D, Latronico L (2022) Open innovation and intellectual capital during emergency: evidence from a case study in telemedicine. Knowl Manag Res Pract 21(4), 765–776

Phan LT, Nguyen TV, Luong QC, Nguyen TV, Nguyen HT, Le HQ, Pham QD (2020) Importation and human-to-human transmission of a novel coronavirus in Vietnam. N Engl J Med 382(9):872–874

Article   PubMed   PubMed Central   Google Scholar  

Phuong QN, Le Ngoc M, Dong HT, Thao TLT, Tran T, Cac T (2024) Enhancing employment opportunities for people with disabilities in Vietnam: the role of vocational training and job placement centers. J Chin Hum Resour Manag 15(3):64–75

Podsakoff N (2003) Common method biases in behavioral research: a critical review of the literature and recommended remedies. J Appl Psychol 885(879):10.1037

Podsakoff PM, MacKenzie SB, Lee J-Y, Podsakoff NP (2003) Common method biases in behavioral research: a critical review of the literature and recommended remedies. J Appl Psychol 88(5):879

Preacher KJ, Hayes AF (2008) Asymptotic and resampling strategies for assessing and comparing indirect effects inmultiple mediator models. Behav Res Methods 40(3):879–891

Rådberg KK, Löfsten H (2024) The entrepreneurial university and development of large-scale research infrastructure: Exploring the emerging university function of collaboration and leadership. J Technol Transf 49(1):334–366

Radhamani R, Kumar D, Nizar N, Achuthan K, Nair B, Diwakar S (2021) What virtual laboratory usage tells us about laboratory skill education pre-and post-COVID-19: Focus on usage, behavior, intention and adoption. Educ Inf Technol 26(6):7477–7495

Rasheed MH, Khalid J, Ali A, Rasheed MS, Ali K (2024) Human resource analytics in the era of artificial intelligence: Leveraging knowledge towards organizational success in Pakistan. J Chin Hum Resour Manag 15:3–20

Ringle CM, Sarstedt M, Mitchell R, Gudergan SP (2020) Partial least squares structural equation modeling in HRM research. Int J Hum Resour Manag 31(12):1617–1643

Roos G, Roos J (1997) Measuring your company’s intellectual performance. Long Range Plan 30(3):413–426

Salamzadeh A, Tajpour M, Hosseini E, Brahmi MS (2023) Human capital and the performance of Iranian Digital Startups: the moderating role of knowledge sharing behaviour. Int J Public Sect Perform Manag 12(1-2):171–186

Sarwar A, Mustafa A (2023) Analysing the impact of green intellectual capital on environmental performance: the mediating role of green training and development. Technol Anal Strateg Manag 1–14. https://doi.org/10.1080/09537325.2023.2209205

Scott WR (2008) Institutions and organizations: ideas and interests. Sage

Secundo G, Dumay J, Schiuma G, Passiante G (2016) Managing intellectual capital through a collective intelligence approach: an integrated framework for universities. J Intellect Cap 17(2):298–319

Secundo G, Massaro M, Dumay J, Bagnoli C (2018) Intellectual capital management in the fourth stage of IC research: a critical case study in university settings. J Intellect Cap 19(1):157–177

Shao JJ, Ariss AA (2020) Knowledge transfer between self-initiated expatriates and their organizations: research propositions for managing SIEs. Int Bus Rev 29(1):101634

Shofiyyah NA, Komarudin TS, Hasan MSR (2023) Innovations in Islamic Education Management within the University Context: addressing challenges and exploring future prospects. Nidhomul Haq 8(2):193–209

Sigala M, Ren L, Li Z, Dioko LA (2023) Talent management in hospitality during the COVID-19 pandemic in Macao: a contingency approach. Int J Contemp Hosp Manag 35(8):2773–2792

Singh SK, Gupta S, Busso D, Kamboj S (2021) Top management knowledge value, knowledge sharing practices, open innovation and organizational performance. J Bus Res 128:788–798

Sobaih AEE, Hasanein A, Elshaer IA (2022) Higher education in and after COVID-19: the impact of using social network applications for e-learning on students’ academic performance. Sustainability 14(9):5195

Article   CAS   Google Scholar  

Sommer LP, Heidenreich S, Handrich M (2017) War for talents—how perceived organizational innovativeness affects employer attractiveness. RD Manag 47(2):299–310

Stewart T (1991) Brainpower: how intellectual capital is becoming America’s most valuable. Fortune

Streukens S, Leroi-Werelds S (2016) Bootstrapping and PLS-SEM: A step-by-step guide to get more out of your bootstrap results. Eur Manage J 34(6):618–632

Sulaiman F, Uden L, Eldy EF (2022) Online Learning in Higher Education Institution During COVID-19: A Review and the Way Forward. Paper presented at the International Workshop on Learning Technology for Education Challenges

Susanto P, Sawitri NN, Ali H, Rony ZT (2023) Employee performance and talent management impact increasing construction company productivity. Int J Psychol Health Sci 1(4):144–152

Tan CN-L, Md. Noor S (2013) Knowledge management enablers, knowledge sharing and research collaboration: a study of knowledge management at research universities in Malaysia. Asian J Technol Innov 21(2):251–276

Vaiman V, Sparrow P, Schuler R, Collings DG (2018) Macro talent management: a global perspective on managing talent in developed markets. Routledge

Vătămănescu E-M, Cegarra-Navarro J-G, Martínez-Martínez A, Dincă V-M, Dabija D-C (2023) Revisiting online academic networks within the COVID-19 pandemic–From the intellectual capital of knowledge networks towards institutional knowledge capitalization. J Intellect Cap 24(4):948–973

Wang Y, Lee L-H, Braud T, Hui P (2022) Re-shaping Post-COVID-19 teaching and learning: A blueprint of virtual-physical blended classrooms in the metaverse era. Paper presented at the 2022 IEEE 42nd International Conference on Distributed Computing Systems Workshops (ICDCSW)

Wang Z, Wang N, Liang H (2014) Knowledge sharing, intellectual capital and firm performance. Manag Decis 52(2):230–258

Xu A, Li Y, Donta PK (2024) Marketing decision model and consumer behavior prediction with deep learning. J Organ End Use Comput (JOEUC) 36(1):1–25

Yang G, Xiangming L (2024) Graduate socialization and anxiety: insights via hierarchical regression analysis and beyond. Stud High Educ 1–17. https://doi.org/10.1080/03075079.2024.2375563

Zada M, Khan J, Saeed I, Zada S, Jun ZY (2023) Linking public leadership with project management effectiveness: mediating role of goal clarity and moderating role of top management support. Heliyon 9(5)

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Conceptualization: Muhammad Zada and Imran Saeed. Methodology: Jawad Khan. Software: Shagufta Zada. Data collection: Muhammad Zada, Shagufta Zada and Jawad Khan. Formal analysis: Imran Saeed and Jawad Khan. Resources: Muhammad Zada. Writing original draft preparation: Muhammad Zada and Imran Saeed. Writing review and editing: Jawad Khan, Shagufta Zada. All authors have read and agreed to the published version of the paper.

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Zada, M., Saeed, I., Khan, J. et al. Navigating post-pandemic challenges through institutional research networks and talent management. Humanit Soc Sci Commun 11 , 1164 (2024). https://doi.org/10.1057/s41599-024-03697-9

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Chemistry Education Research and Practice

The use of mobile technology in abductive inquiry-based teaching and learning of chemical bonding.

Continuous enhancement of mobile devices such as smartphones offer new opportunities for using these technologies in inquiry-based learning environments. Inquiry-based learning has followed deductive and inductive forms of inquiry, while the abductive form of inquiry that target the development of higher-order thinking skills such as critical thinking are less prevalent. This study investigated the use of mobile technology in abductive-inquiry based teaching and learning of chemical bonding for grade 11 physical sciences learners in two South African schools. The study employed an explanatory sequential mixed-methods design that entailed first collecting quantitative data and then qualitative data to help explain or elaborate on the quantitative results. Two grade 11 Physical Sciences classes were randomly designated as the experimental and control groups in each of the two different schools. The experimental group in each school experienced activities in a laboratory using mobile technology-enhanced abductive scientific inquiry through the ‘Molecular Workbench’ web-based simulation using a mobile device, while the control group in each school experienced activities in abductive scientific inquiry in a science laboratory without using mobile learning technology. The principal findings indicated that learners within the control group displayed a significant increase in their performance to create a scientifically accurate hypothesis that is the essence of abductive inquiry, whereas for the experimental group there was no significant improvement in their hypothesis generation capacity. However, participants within the experimental group felt that their use of mobile devices created a sense of learner agency amongst themselves, developed their communication skills, made them feel responsible for their own learning, and also made learning scientific concepts more fun as opposed to what they are normally exposed to.

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Nasa minds technology spec sheets.

Technology Spec Sheets

Listed below are technologies that NASA is seeking to advance to support the Artemis Mission. Projects proposed to NASA Minority University Research and Education Project (MUREP) Innovative New Designs for Space (INDS) (NASA MINDS) are NOT limited to these technologies. The spec sheets are simply examples of potential technologies and the specifications associated with them.

Please also note that many of the specifications listed represent NASA’s ultimate goals for the technology. It is not necessary for projects to achieve these specifications. Progress towards these specifications, combined with a significant student learning experience, achieve the objectives of NASA MINDS.

Please check back to this page as we continue to add more spec sheets!

• Sound Monitoring and Acoustic Control Spec Sheet
• Cleaning Clothes in Space Spec Sheet
• Compact Commode for Exploration Spec Sheet
• Dust Mitigation Technologies Spec Sheet
• Exercise Vibration Isolation Spec Sheet
• Food Resources Spec Sheet
• In Space Welding Spec Sheet
• Inventory Tracking Spec Sheet
• Reticular Solar-Arrays Spec Sheet
• Alternative Parachute Systems Spec Sheet
• Clothing for Enriched O2 Environment Spec Sheet
• In-flight Waste Jettison Spec Sheet
• Payload Handling Spec Sheet
• Onboard Mass Data Storage Spec Sheet

Intermediate:

• H2O Disinfectant Spec Sheet
• Imaging Sesnors Spec Sheet
• In Space Water Quality Monitoring Spec Sheet
• Lunar Planetary Wireless Network Spec Sheet
• Life Support CO2 Removal Spec Sheet
• Swarming Robotics Spec Sheet
• Sub Newton Force Torque Sensors Spec Sheet
• Variable Heat Rejection Spec Sheet
• Lunar Dust Spec Sheet
• Dust Tolerant Connectors Spec Sheet
• Methane Production on Mars Spec Sheet
• Converting Martian CO2 to O2 Spec Sheet
• On-demand Manufacturing Spec Sheet
• Predicting Plume-surface Interaction Spec Sheet
• Energy Density Low Cycle Long Discharge Spec Sheet

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20 Years of Academic Excellence

The Department of Homeland Security (DHS) Centers of Excellence (COE) have now been at the forefront of innovation for two decades. In this guest blog, Rebecca Medina, Director of the Science and Technology Directorate’s (S&T) Office of University Programs , and others reflect on how our institutions of higher learning have impacted the nation.

Over the last 20 years, the DHS COEs have matched the nation’s preeminent scholars and brightest students with some of the most pressing challenges of our time—terrorism prevention, cybersecurity, food security, community resilience, climate change, and much more. Managed by S&T, each COE is a coalition led by a U.S. college or university in partnership with additional institutions. By leveraging extensive public and private networks, COEs conduct groundbreaking research resulting in rigorous, objective knowledge products and timely solutions for DHS agencies. 

Established to examine the changing security landscape post-9/11, DHS launched its first COE—the Center for Risk and Economic Analysis of Threats and Emergencies —at the University of Southern California in 2004. Since then, with support of S&T, the COEs have consistently prepared those across the nation who work to improve our national security with the information and tools needed to get the job done. In the seven years that I have been at the helm of OUP, more than 80 new inventions and 469 technologies were developed by COEs, along with 73 new degree programs and 639 new academic courses created.

Earlier this year, we launched ADAC-ARCTIC , the 25th COE. Led by the University of Alaska Anchorage, its mission is dedicated to the unique security challenges on the horizon for the Arctic region. To commemorate this milestone and the historic anniversary, we invited COE leaders, researchers, and some of our own staff to share reflections on their journey so far. Their insights both highlight the achievements of the past two decades and emphasize the critical role these COEs will continue to play in navigating the complex and dynamic security landscape of the future.

Here are excerpts from the responses we received that illustrate the breadth and reach of this vast coalition:

• “As a doctoral student at Purdue, I conducted research in a COE . I observed that my research could have real-world impact —and the incredibly rewarding project would not have been possible without the COE and its partners. Later, as I built my faculty career at Arizona State University (ASU), I sought to lead a COE ( Center for Accelerating Operational Efficiency ) to ensure that students and fellow researchers have the opportunity to maximize the value of their work.” — Ross Maciejewski, ASU School of Computing and Augmented Intelligence
• “It is no exaggeration to say that much of the credit for the advancements we have been able to achieve accrues to our partnership with DHS as a COE. That partnership has yielded gains in the protection of both the public and the American economy that would have been far more difficult to achieve acting independently. It has been both a pleasure and a privilege to be able to work cooperatively with DHS to protect U.S. agricultural systems and public health.” — Juergen A. Richt, Kansas State University
• “From the perspectives of a researcher, principal investigator, and now a university leadership position, I can see the impact S&T has made and will make investing in centers like the Arctic Domain Awareness Center and ADAC-ARCTIC. I am honored to support DHS in showing the power of universities to drive technological innovation and knowledge transfer for the safety and security of our homeland.” — Aaron Dotson, University of Alaska Anchorage
• “The COEs are a critical part of our mission to understand and prepare for the future of homeland security. This entails not only trying to solve problems before they materialize, but to also discover ways to advance technology to give us new capabilities . They are doing use-inspired research that is aligned to S&T research objectives and DHS mission priorities and that support the federal cybersecurity R&D strategy. I have had great experiences working with the Critical Infrastructure Resilience Institute , the Criminal Investigations and Network Analysis Center , and CAOE.” — Donald Coulter, S&T Cybersecurity Threats Technology Center
• “The DHS COEs have been vital to the careers of my students and myself; our mentors and colleagues became like family to us. Working with CINA helped us build networking opportunities and provided us with once-in-a lifetime experiences , such as attending lectures from DHS personnel, visiting TSA facilities, and collecting, analyzing data and presenting our findings in a professional environment to DHS leaders and other academics.” — Omar Camarillo, Ph.D, Eastern New Mexico University
• “Two years ago, I never would have believed that moving to Omaha, Nebraska would broaden my horizons in the way it has. But, as part of the National Counterterrorism Innovation, Technology, and Education Center I have had opportunities to work with some of the best academics and practitioners in the counterterrorism field, both here and within our larger international consortium. This experience has prepared me in a unique way, by providing me with exposure to new methodologies, disciplines, and even project management skills , while still allowing me to conduct my own research.” — Callie Vitro, University of Nebraska at Omaha
• “My role has allowed me to bring together some of the most accomplished and thoughtful scientists in our nation with dedicated personnel from our DHS components, other federal agencies, industry, and local communities to tackle some of the most challenging homeland security issues of our time. Something special happens when these brilliant minds come together in a collaborative, safe space where innovation thrives , leading to meaningful, on-the-ground changes that make a real difference in people’s lives.” — Eleanore Hajian, S&T Office of University Programs

My colleague Eleanore hit the nail on the head—a lot of ‘something special’ has been happening over the last 20 years, and we can’t wait to share even more successes in the months, years, and decades ahead. In the meantime, we’ve curated a special COE 20th Anniversary page where you can read the full reflections and learn more about several of our collective research and development collaborations.

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Current Trends (and Missing Links) in Educational Technology Research and Practice

• Column: Guest Editorial
• Published: 15 October 2020
• Volume 64 , pages 803–809, ( 2020 )

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• Royce Kimmons 1  

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It has historically been difficult to find reliable, up-to-date information about educational technology trends, such as what researchers are studying and what tools practitioners are using, thereby making it difficult for researchers and practitioners to synergize their efforts in meaningful, socially-responsive ways. In this editorial, I analyze titles and abstracts of 7708 research articles from prominent journals over the past 5 years to identify common topics—such as “online,” “mobile,” and “learning analytics.” I also extract links from 51,496 K-12 school and 1317 university websites in the U.S. to identify common tools that they are linking to—such as Facebook, Twitter, Google Docs, and YouTube. I propose that these sorts of metrics provide a baseline understanding for other researchers and practitioners to draw upon when situating their work and that they can also give us insights into areas that merit greater attention for addressing real-world problems.

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It is often difficult for educational technology professionals to find reliable data on current trends in the field. This can make it challenging for stakeholders, as (a) policymakers struggle to know what technologies are being used and researched, (b) practitioners struggle to know how they should adapt to changing needs and possibilities, and (c) researchers struggle to understand diffusion patterns of promising tools and how to use them to address meaningful problems.

In addition to this difficulty, in our field we often seem to struggle to understand and articulate how our work is valuable to society, lacking the ability to solve many real problems in real settings. For instance, though the COVID-19 pandemic recently influenced rapid shifts to remote and online learning—something that educational technology professionals are technically well-equipped to support—very real emergent concerns over equity, digital inclusion, privacy, and accessibility for students of all ages reveal that we as a field could be providing better leadership in the human aspect of learning—the “educational” aspect of “educational technology” (Goldstein 2020 ; Veletsianos and Kimmons 2020 ).

Many researchers have argued for decades that our field should be more situated and socially aware (Reeves et al. 2005 ), explaining that “there is a clear need for [us] ... to take stock of who we are, what it is we do, and how and why we do it,” paying greater attention “to how digital technologies are actually being used—for better and worse—in ‘real-world’ educational settings” (Selwyn 2010 , pp. 65–66). Yet, digital divides persist in evolving forms (Dolan 2016 ), research and practice are often misaligned (Amiel and Reeves 2008 ), and even seemingly fundamental ethical and social considerations often remain conspicuously ignored (like addressing issues of discriminatory design [Benjamin 2019 ] or making school websites universally accessible for students [Kimmons and Smith 2019 ]).

In a recent study of 3 years of articles from a prominent educational technology journal, Mason ( 2018 ) found that “in a substantial portion of the discourse, there is a deep metaphor of technology as the agent or driver of social progress underlying the thinking of many authors” (p. 550), often implying that “technologies have their own autonomy and agency” (p. 545). Yet, technologies rather seem to merely exacerbate many of the deep problems we face as groups, because “the societies in which technologies are introduced are not neutral, [and] if a society or school is racist, sexist, or ableist, supposedly neutral technologies can amplify those bigotries” (Krutka et al. 2020 , p. 112).

To be clear, there are leaders in the field who have sought to address these important issues for decades (e.g., Dickson-Deane et al. 2018 ; Marri 2005 ; Mehta and Aguilera 2020 ; Selwyn 2004 ; Sulecio de Alvarez and Dickson-Deane 2018 ; Tawfik et al. 2016 ; Tufekci 2014 ; Watters 2019 ), but our overall tone can remain highly technocentric and technophilic rather than learner-centric and humanizing, wherein “the nearly constant emergence of new technologies has only created the new problem of learning to use those [specific] technologies effectively [to] support learning” (Spector 2020 , p. 834). Yet, as Spector ( 2020 ) recently argued: “We can do better as educators and educational technology researchers. We can forego the impulse to use a technology just because it is new … [and] focus on helping students learn—all students … not just the gifted or those we like or who like us or who are like us” (p. 835).

In this brief editorial, I will share some high-level results of two analyses—trending research topics among prominent educational technology research journals for the past 5 years and trending links from K-12 school and university websites in the U.S. in 2019—to show what is currently happening in educational technology, where there might be potential disconnects between research and practice, and how we might realign our emphases to better address pertinent real-world problems. These analyses rely wholly upon public data sources available through the internet (Kimmons and Veletsianos 2018 ), and though not exhaustive or representative of all contexts, they should at least provide some useful lenses for discerning what is happening (and perhaps what is missing) in educational technology.

Trending Research Topics

To understand the topics educational technology researchers have been studying over the past 5 years, I used the Elsevier Scopus ( n.d. ) API to collect all articles from the most-highly-cited journals in the field of educational technology as identified by Google Scholar ( n.d. ), which included TechTrends , Computers & Education , Educational Technology Research & Development , and 13 others. This produced 7708 articles with titles and abstracts. I then parsed each title and abstract into a list of keywords, removing stopwords (e.g., “a,” “and,” “the”), reducing words to their stems (e.g., “reading” and “reads” to “read”, “games” and “game-based” to “game”), and grouping words as positional pairs (e.g., “learning” and “environment” together for “learning environment”). Titles produced over 8500 unique keywords (e.g., “flipped,” “classroom”), while abstracts produced nearly 30,000. Reading top keywords and pairs for the current year, I excluded those that dealt with general aspects of the field (e.g., “technology,” “learning”), research methods (e.g., “case study”), participants (e.g., “teachers”), grade levels, and so forth, allowing the analysis to focus on those that dealt with specific areas of study, topics, or technologies. Top results for article titles in the current year are provided in Table 1 , and results from abstracts are provided in Table 2 . In each table, raw numbers of articles that included the keyword or pair are provided from 5 years ago, while subsequent years are represented as percentage increases or decreases from each previous year to show relative adjustments over time.

Trending topics from research article titles as ranked by 2019 prevalence

Trending keyword pairs from research article abstracts as ranked by 2019 prevalence

We see from these title results that the modality “online” (e.g., “online learning,” “online teaching”) has clearly been the most-researched topic over the past 5 years, followed by the modality “mobile,” and accompanied by related modalities of “e-learning,” “blended,” and “distance.” The most-researched subject areas in this time period included “language” (including “EFL”), “science,” “writing,” “reading,” and “mathematics.” The most-researched applications of technologies or approaches have included “games,” “flipped,” “learning environment,” “video,” “MOOCs, “media,” “virtual reality,” and “augmented reality,” with “data” and “learning analytics” also making the list.

When analyzing abstracts, only keyword pairs were considered, given the greater variability and volume of common words extracted from the lengthier artifacts (e.g., “student,” “education”), and keyword pairs representing generalities, research methods, participants, etc. were excluded to focus on areas of study, topics, and technologies. Again, modalities were highly represented (e.g., “online learning,” “online course,” “mobile learning,” “flipped classroom”) along with “language learning” and “foreign language” as the dominant subject areas and “social network,” “learning analytics,” and “social media” as the dominant technologies or applications.

Taken together, these title and abstract results suggest that researchers over the past 5 years (a) have focused heavily on studying learning environments as modalities (e.g., online, mobile, flipped), (b) have done so with the purpose of achieving learning goals related to language learning, science, writing, reading, and mathematics, and (c) have used various technologies toward these ends, with learning analytics, virtual reality, augmented reality, and social media being some of the most prominent (Figs 1 & 2 .).

Trending Technologies from Institutional Websites

As another data source, I also parsed links from 51,496 U.S. K-12 school websites and 1317 U.S. college or university websites to attempt to determine what tools these institutions were linking to (and by extension using) with their students and communities. Because the number of unique links exhibited highly positive skew (with many sites providing very few external links), I excluded all sites below the median number of unique external links (median = 16 for K-12 schools). This resulted in the analysis of 954 K external links from K-12 sites, representing 25,889 websites, and 82 K external links from college and university sites, representing 10,682 websites.

Results indicated that the top sites that K-12 schools linked to included social media sites (e.g., Facebook, Twitter, Instagram, LinkedIn), media sharing sites (e.g., YouTube, Vimeo), a host of different Google tools (Docs, Sites, Drive, Translate, Mail), and various other tools that are designed to support school business management and communication processes (e.g., SchoolMessenger, My School Bucks, PeachJar). These results mimicked other studies on school websites, which have generally shown that schools link to free, generic, non-pedagogical tools, like YouTube, much more than fee-based or education-specific tools, like SchoolTube (Kimmons 2015 ; Kimmons et al. 2019 ). College and university websites exhibited similar prioritization of links to social media, email, and image and video sharing services, coupled with a few types of services unique to that market (e.g., virtual campus tours).

Trends and Missing Links

Though web scraping of school websites is by no means a complete measure of school use and cannot capture most pedagogical and classroom uses, differences between what is being researched and what is being used by educational institutions to communicate and share with their communities should at least make us wonder whether trending research topics actually focus on what is happening in and is useful for our institutions. Google Docs/Drive, for instance, was only mentioned in 18 abstracts (0.2%), although it was represented on 25.9% of school websites, and Facebook and Twitter were mentioned in 132 (1.7%) and 61 (0.8%) abstracts while being represented on 56.7% and 55.3% of school websites (and most college and university websites). Research emphasis on social media overall decreased in 2017 and 2018 with a modest upturn in 2019, only exhibiting half the article count of “virtual reality,” one-third that of “MOOCs,” and one-fourth that of “flipped,” and though Google Docs and other tools might be studied in articles related to collaborative writing, peer feedback, or flipped classrooms, omission of these technologies from article abstracts should at least give us pause. Does this discrepancy reveal that research is not as needed on these topics? Or that current research focuses on issues related to learning vs. specific tools? Or that a gap exists between research and practice, with researchers and journal reviewers exhibiting a technophilic flow toward the newest technologies (rather than those that are being used by institutions to solve pressing problems)?

To further explore this, we might also consider what keywords are missing from educational technology abstracts. Notably, keywords that deal with broader social issues (even those specific to educational technology) are generally missing over the past 5 years. The keyword “accessibility” was only included in 80 abstracts (1%); only 59 (0.8%) mentioned “women;” only 50 (0.6%) mentioned “privacy;” only 33 (0.4%) mentioned a “digital divide;” only 32 (0.4%) mentioned “justice;” only 27 (0.4%) mentioned “equity” or “equitable;” only 13 (0.2%) mentioned “poverty” or “impoverish;” only 9 (0.1%) mentioned “universal design;” only 8 (0.1%) mentioned “feminism” or “feminist;” only 7 (0.1%) mentioned “racial;” and only 1 mentioned “racism” or “racist,” with only about 3% of articles mentioning any of these words. As a specific example, only 8 (2.2%) of the 368 articles studying “online learning” in the past 5 years mentioned the word “accessibility” or “accessible” in their abstracts, and none mentioned privacy, which seems like a major problem. If we are studying “how to make online learning work” but not “how to make it work for all students ” or “how to protect our students while they are learning online,” then are our attentions where they should be?

Such missing links and lack of emphasis on social issues, especially in cases that should be of paramount interest to educational technology (like digital divides, accessibility, and privacy), suggests that the field may be struggling to orient its work toward solving relevant real-world problems, and researchers should consider how their efforts can more meaningfully inform socially-responsible policy and practice. Some specialized research areas and methods show focus and promise in this regard, such as “open education” or “open educational resources,” which was represented in 1.6% of abstracts, and “design research” or “design-based research,” which was represented in 1% of abstracts, but such tokens seem a pittance when compared to pressing social needs of the day.

As another promising example, in a recent special issue of TechTrends , guest editors Dickson-Deane et al. ( 2018 ) argued that “we cannot accurately understand how best to attend to issues of learning and technology without acknowledging that culture permeates all environments in which learning takes place, and every technology created and implemented reflects and is imbued with aspects of the culture(s) of its creator” (p. 310). Over the past 5 years, 6.9% of abstracts in these journals have mentioned a variant of the word “culture” (such as “sociocultural”), which, though small, suggests some growing interest and recognition of the topic’s importance to the field.

As we continue moving forward together, it is my hope to continue this editorial each March for documenting ongoing trends of educational technology as well as our growth and development as a field for the previous year. Using public data sources like these as an ongoing litmus test can potentially help us to bridge the research-practice divide and to better align research activities with emergent needs. In future versions, I plan to also include analyses of social media data and other sources to show these trends through more lenses that also account for what practitioners are sharing, what they are finding to be of value, and what problems they believe to be important. Hopefully, as we continue in this exciting and important work, we can refine these data collection processes and also refine our efforts as educational researchers and practitioners to allow for closer alignment between our research and practice efforts while also striving for greater harmony between our professional efforts and the creation of a better, more equitable world.

Amiel, T., & Reeves, T. C. (2008). Design-based research and educational technology: Rethinking technology and the research agenda. Journal of Educational Technology & Society, 11 (4), 29–40.

Google Scholar  

Benjamin, R. (2019). Race after technology: Abolitionist tools for the new Jim code . Cambridge, UK: Polity.

Dickson-Deane, C., Bradshaw, A. C., & Asino, T. I. (2018). Recognizing the inseparability of culture, learning, and technology. TechTrends, 62 , 310–311.

Dolan, J. E. (2016). Splicing the divide: A review of research on the evolving digital divide among K–12 students. Journal of Research on Technology in Education, 48 (1), 16–37.

Elsevier Scopus. (n.d.). Elsevier Scopus APIs. Elsevier Developers . Retrieved from https://dev.elsevier.com/sc_apis.html

Goldstein, D. (2020). Research shows students falling months behind during virus disruptions. The New York Times. Retrieved from https://www.nytimes.com/2020/06/05/us/coronavirus-education-lost-learning.html

Google Scholar. (n.d.). Educational technology Google Scholar metrics. Google Scholar . Retrieved from https://scholar.google.com/citations?view_op=top_venues&vq=soc_educationaltechnology

Kimmons, R. (2015). Open online system adoption in K-12 as a democratizing factor. Open Learning: The Journal of Open, Distance and e-Learning, 30 (2), 138–151. https://doi.org/10.1080/02680513.2015.1077109 .

Article   Google Scholar  

Kimmons, R., Hunsaker, E., Jones, J. E., & Stauffer, M. (2019). The nationwide landscape of K-12 school websites in the United States: Systems, services, intended audiences, and adoption patterns. The International Review of Research in Open and Distributed Learning, 20 (3). https://doi.org/10.19173/irrodl.v20i4.3794 .

Kimmons, R., & Smith, J. (2019). Accessibility in mind? A nationwide study of K-12 websites in the U.S. First Monday, 24 (2). https://doi.org/10.5210/fm.v24i2.9183 .

Kimmons, R., & Veletsianos, G. (2018). Public internet data mining methods in instructional design, educational technology, and online learning research. TechTrends, 62 (5), 492–500. https://doi.org/10.1007/s11528-018-0307-4 .

Kimmons, R., Veletsianos, G., & Woodward, S. (2017). Institutional uses of Twitter in U.S. higher education. Innovative Higher Education, 42 (2), 97–111. https://doi.org/10.1007/s10755-016-9375-6 .

Krutka, D. G., Heath, M. K., & Mason, L. E. (2020). Editorial: Technology won’t save us – A call for technoskepticism in social studies. Contemporary Issues in Technology and Teacher Education, 20 (1), 108–120.

Marri, A. (2005). Educational technology as a tool for multicultural democratic education: The case of one US history teacher in an underresourced high school. Contemporary Issues in Technology and Teacher Education, 4 (4), 395–409.

Mason, L. (2018). A critical metaphor analysis of educational technology research in the social studies. Contemporary Issues in Technology and Teacher Education, 18 (3), 538–555.

Mehta, R., & Aguilera, E. (2020). A critical approach to humanizing pedagogies in online teaching and learning. The International Journal of Information and Learning Technology, 37 (3), 109–120.

Reeves, T. C., Herrington, J., & Oliver, R. (2005). Design research: A socially responsible approach to instructional technology research in higher education. Journal of Computing in Higher Education, 16 (2), 96.

Selwyn, N. (2004). Reconsidering political and popular understandings of the digital divide. New Media & Society, 6 (3), 341–362.

Selwyn, N. (2010). Looking beyond learning: Notes towards the critical study of educational technology. Journal of Computer Assisted Learning, 26 (1), 65–73.

Spector, J. M. (2020). Remarks on progress in educational technology. Educational Technology Research and Development, 68 , 833–836.

Sulecio de Alvarez, M., & Dickson-Deane, C. (2018). Avoiding educational technology pitfalls for inclusion and equity. TechTrends, 62 , 345–353.

Tawfik, A. A., Reeves, T. D., & Stich, A. (2016). Intended and unintended consequences of educational technology on social inequality. TechTrends, 60 , 598–605.

Tufekci, Z. (2014). Engineering the public: Big data, surveillance and computational politics. First Monday, 19 (7).

Veletsianos, G., & Kimmons, R. (2020). What (some) students are saying about the switch to remote teaching and learning. EDUCAUSE Review .

Watters, A. (2019). The stories we were told about education technology (2019). Hack Education. Retrieved from http://hackeducation.com/2019/12/23/top-ed-tech-stories

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Kimmons, R. Current Trends (and Missing Links) in Educational Technology Research and Practice. TechTrends 64 , 803–809 (2020). https://doi.org/10.1007/s11528-020-00549-6

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Accepted : 06 October 2020

Published : 15 October 2020

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DOI : https://doi.org/10.1007/s11528-020-00549-6

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