chemistry education projects topics

• Grades 6-12
• School Leaders

Get our FREE 'Meet the Teacher' bundle!

Every product is independently selected by (obsessive) editors. Things you buy through our links may earn us a commission.

45 Cool Chemistry Experiments, Demos, and Science Fair Projects

Don’t forget your safety equipment!

Bunsen burners, colorful chemicals, and the possibility of a (controlled) explosion or two? Everybody loves chemistry experiments! We’ve rounded up the best activities, demos, and chemistry science fair projects for kids and teens. Try them in the classroom or at home.

Easy Chemistry Experiments and Activities for All Ages

Chemistry science fair projects.

These chemistry experiments and activities are all easy to do using simple supplies you probably already have. Families can try them at home, or teachers and students can do them together in the classroom.

Mix up some magic milk

Kids love this colorful experiment, which explores the concept of surface tension. This is one of our favorite chemistry experiments to try at home, since the supplies are so basic and the results are so cool!

Taste the Rainbow

Teach your students about diffusion while creating a beautiful and tasty rainbow. You’ll definitely want to have extra Skittles on hand so your class can enjoy a few as well!

Learn more: Skittles Diffusion

Crystallize sweet treats

Crystal science experiments teach kids about supersaturated solutions. This one is easy to do at home, and the results are absolutely delicious!

Learn more: Candy Crystals

Make elephant-sized toothpaste

This fun project uses yeast and a hydrogen peroxide solution to create overflowing “elephant toothpaste.” You can also add an extra fun layer by having kids create toothpaste wrappers for their plastic bottles.

Blow the biggest bubbles you can

Add a few simple ingredients to dish soap solution to create the largest bubbles you’ve ever seen! Kids learn about surface tension as they engineer these bubble-blowing wands.

Learn more: Giant Soap Bubbles

Demonstrate the “magic” leakproof bag

So simple and so amazing! All you need is a zip-top plastic bag, sharp pencils, and some water to blow your kids’ minds. Once they’re suitably impressed, teach them how the “trick” works by explaining the chemistry of polymers.

Learn more: Leakproof Bag

Use apple slices to learn about oxidation

Have students make predictions about what will happen to apple slices when immersed in different liquids, then put those predictions to the test! Finally, have them record their observations.

Learn more: Apple Oxidation

Float a marker man

Their eyes will pop out of their heads when you “levitate” a stick figure right off the table. This experiment works due to the insolubility of dry-erase marker ink in water, combined with the lighter density of the ink.

Learn more: Floating Marker Man

Discover density with hot and cold water

There are a lot of easy science experiments you can do with density. This one is extremely simple, involving only hot and cold water and food coloring, but the visuals make it appealing and fun.

Learn more: Layered Water

Layer more liquids

This density demo is a little more complicated, but the effects are spectacular. Slowly layer liquids like honey, dish soap, water, and rubbing alcohol in a glass. Kids will be amazed when the liquids float one on top of the other like magic (except it is really science).

Learn more: Layered Liquids

Grow a carbon sugar snake

Easy science experiments can still have impressive results. This eye-popping chemical reaction demonstration only requires simple supplies like sugar, baking soda, and sand.

Learn more: Carbon Sugar Snake

Make homemade bouncy balls

These homemade bouncy balls are easy to make since all you need is glue, food coloring, borax powder, cornstarch, and warm water. You’ll want to store them inside a container like a plastic egg because they will flatten out over time.

Learn more: Make Your Own Bouncy Balls

Create eggshell chalk

Eggshells contain calcium, the same material that makes chalk. Grind them up and mix them with flour, water, and food coloring to make your very own sidewalk chalk.

Learn more: Eggshell Chalk

Make naked eggs

This is so cool! Use vinegar to dissolve the calcium carbonate in an eggshell to discover the membrane underneath that holds the egg together. Then, use the “naked” egg for another easy science experiment that demonstrates osmosis .

Learn more: Naked Egg Experiment

Turn milk into plastic

This sounds a lot more complicated than it is, but don’t be afraid to give it a try. Use simple kitchen supplies to create plastic polymers from plain old milk. Sculpt them into cool shapes when you’re done.

Test pH using cabbage

Teach kids about acids and bases without needing pH test strips. Simply boil some red cabbage and use the resulting water to test various substances—acids turn red and bases turn green.

Learn more: Cabbage pH

Clean some old coins

Use common household items to make old oxidized coins clean and shiny again in this simple chemistry experiment. Ask kids to predict (hypothesize) which will work best, then expand the learning by doing some research to explain the results.

Learn more: Cleaning Coins

Blow up a balloon (without blowing)

Chances are good you probably did easy science experiments like this when you were in school yourself. This well-known activity demonstrates the reactions between acids and bases. Fill a bottle with vinegar and a balloon with baking soda. Fit the balloon over the top, shake the baking soda down into the vinegar, and watch the balloon inflate.

Learn more: Balloon Experiments

Assemble a DIY lava lamp

This 1970s trend is back—as an easy science experiment! This activity combines acid/base reactions with density for a totally groovy result.

Explore how sugary drinks affect teeth

The calcium content of eggshells makes them a great stand-in for teeth. Use eggs to explore how soda and juice can stain teeth and wear down the enamel. Expand your learning by trying different toothpaste and toothbrush combinations to see how effective they are.

Learn more: Sugar and Teeth Experiment

Mummify a hot dog

If your kids are fascinated by the Egyptians, they’ll love learning to mummify a hot dog. No need for canopic jars ; just grab some baking soda and get started.

Extinguish flames with carbon dioxide

This is a fiery twist on acid-base experiments. Light a candle and talk about what fire needs in order to survive. Then, create an acid-base reaction and “pour” the carbon dioxide to extinguish the flame. The CO2 gas acts like a liquid, suffocating the fire.

Send secret messages with invisible ink

Turn your kids into secret agents! Write messages with a paintbrush dipped in lemon juice, then hold the paper over a heat source and watch the invisible become visible as oxidation goes to work.

Learn more: Invisible Ink

Set popcorn dancing

This is a fun version of the classic baking soda and vinegar experiment, perfect for the younger crowd. The bubbly mixture causes popcorn to dance around in the water.

Learn more: Dancing Popcorn Experiment

Shoot a soda geyser sky-high

You’ve always wondered if this really works, so it’s time to find out for yourself! Kids will marvel at the chemical reaction that sends diet soda shooting high in the air when Mentos are added.

Learn more: Mentos and Coke Experiment

All of these chemistry experiments are perfect for using the scientific method. Form a hypothesis, alter the variables, and then observe the results! You can simplify these projects for younger kids, or add more complexity for older students.

Break apart covalent bonds

Difficulty: Medium / Materials: Medium

Break the covalent bond of H 2 O into H and O with this simple experiment. You only need simple supplies for this one. Turn it into a science fair project by changing up the variables—does the temperature of the water matter? What happens if you try this with other liquids?

Learn more: Breaking Covalent Bonds

Measure the calories in various foods

Are the calorie counts on your favorite snacks accurate? Build your own calorimeter and find out! This kit from Home Science Tools has all the supplies you’ll need.

Detect latent fingerprints

Forensic science is engrossing and can lead to important career opportunities too. Explore the chemistry needed to detect latent (invisible) fingerprints, just like they do for crime scenes!

Learn more: Fingerprints Project

Use Alka-Seltzer to explore reaction rate

Difficulty: Easy / Materials: Easy

Tweak this basic concept to create a variety of high school chemistry science fair projects. Change the temperature, surface area, pressure, and more to see how reaction rates change.

Determine whether sports drinks really have more electrolytes than other beverages

Difficulty: Medium / Materials: Advanced

Are those pricey sports drinks really worth it? Try this experiment to find out. You’ll need some special equipment for this one; buy a complete kit at Home Science Tools .

Turn flames into a rainbow

You’ll need to get your hands on a few different chemicals for this experiment, but the wow factor will make it worth the effort. Make it a science project by seeing if different materials, air temperature, or other factors change the results.

Discover the size of a mole

The mole is a key concept in chemistry, so it’s important to ensure students really understand it. This experiment uses simple materials like salt and chalk to make an abstract concept more concrete. Make it a project by applying the same procedure to a variety of substances, or determining whether outside variables have an effect on the results.

Learn more: How Big Is a Mole?

Cook up candy to learn mole and molecule calculations

This edible experiment lets students make their own peppermint hard candy while they calculate mass, moles, molecules, and formula weights. Tweak the formulas to create different types of candy and make this into a sweet science fair project!

Learn more: Candy Chemistry

Make soap to understand saponification

Take a closer look at an everyday item: soap! Use oils and other ingredients to make your own soap, learning about esters and saponification. Tinker with the formula to find one that fits a particular set of parameters.

Learn more: Saponification

Uncover the secrets of evaporation

Explore the factors that affect evaporation, then come up with ways to slow them down or speed them up for a simple science fair project.

Learn more: Evaporation

More Chemistry Experiment Science Fair Ideas

These questions and prompts can spark ideas for unique chemistry experiments:

• Compare the properties of sugar and artificial sweeteners.
• Explore the impact of temperature, concentration, and seeding on crystal growth.
• Test various antacids on the market to find the most effective product.
• What is the optimum temperature for yeast production when baking bread from scratch?
• Compare the vitamin C content of various fruits and vegetables.
• How does temperature affect enzyme-catalyzed reactions?
• Investigate the effects of pH on an acid-base chemical reaction.
• Devise a new natural way to test pH levels (such as cabbage leaves).
• What’s the best way to slow down metal oxidation (the form of rust)?
• How do changes in ingredients and method affect the results of a baking recipe?

Like these chemistry experiments? Don’t miss STEM Activities for Kids of All Ages and Interests .

Plus, get all the latest teaching news and ideas when you sign up for our free newsletters.

You Might Also Like

70 Best High School Science Fair Projects in Every Subject

Fire up the Bunsen burners! Continue Reading

Copyright © 2024. All rights reserved. 5335 Gate Parkway, Jacksonville, FL 32256

201+ Chemistry Project Topics [Updated]

Chemistry, often hailed as the “central science,” plays a pivotal role in understanding the world around us. From the composition of substances to the reactions that transform them, chemistry influences nearly every aspect of our lives. One fascinating way to delve deeper into this field is through chemistry projects. These projects offer a hands-on approach to learning, allowing students and enthusiasts alike to explore various concepts and phenomena. In this blog, we’ll journey through a diverse array of chemistry project topics, offering insights into each area’s significance and potential for exploration.

How To Select Relevant Chemistry Project Topics?

Table of Contents

Selecting relevant chemistry project topics requires careful consideration of several factors to ensure that the chosen topic aligns with your interests, goals, and resources. Here’s a step-by-step guide to help you select the most suitable chemistry project topic:

• Identify Your Interests: Consider your interests within the broad field of chemistry. Are you fascinated by organic synthesis, environmental chemistry, biochemistry, or another sub-discipline? Choosing a topic that aligns with your interests will keep you motivated throughout the project.
• Assess Your Knowledge and Skills: Evaluate your current knowledge and skills in chemistry. Choose a topic that challenges you without being too overwhelming. If you’re a beginner, opt for a project that allows you to build upon your existing knowledge while learning new concepts.
• Consider Available Resources: Take stock of the resources available to you, including laboratory equipment, chemicals, reference materials, and access to mentors or experts. Select a project that can be feasibly completed with the resources at your disposal.
• Review Literature and Current Trends: Conduct a literature review to explore recent advancements, emerging trends, and unresolved questions in your chosen area of interest. This will help you identify gaps in knowledge or areas where further research is needed, guiding your selection of a relevant project topic.
• Define Your Objectives and Goals: Clearly define your objectives and goals for the project. Determine what you aim to accomplish and what outcomes you hope to achieve. Your project topic should align with these objectives and contribute to fulfilling your academic or personal goals.
• Consult with Mentors or Advisors: Seek guidance from mentors, advisors, or faculty members who can provide insights and suggestions based on their expertise. Discuss potential project topics with them and solicit their feedback to ensure that your chosen topic is relevant and feasible.
• Brainstorm and Narrow Down Options: Brainstorm a list of potential project topics based on your interests, knowledge, resources, and goals. Narrow down your options by considering factors such as feasibility, novelty, and potential impact. Choose a topic that excites you and has the potential to make a meaningful contribution to the field of chemistry.
• Refine Your Topic and Formulate a Research Plan: Once you’ve selected a topic, refine it further by clearly defining your research question or hypothesis. Develop a research plan outlining the specific objectives, methods, and timeline for your project. Be prepared to adapt and refine your plan as you progress with your research.

By following these steps, you can select relevant chemistry project topics that align with your interests, goals, and resources, setting the stage for a successful and rewarding research experience.

201+ Chemistry Project Topics: Beginners To Advanced

Organic chemistry projects.

• Synthesis and characterization of aspirin.
• Extraction and analysis of caffeine from tea leaves.
• Isolation and identification of natural dyes from plants.
• Synthesis of biodiesel from vegetable oil.
• Investigating the acidity of fruit juices using titration.
• Synthesis of esters for fragrance applications.
• Preparation of soap from vegetable oils.
• Studying the effect of catalysts on organic reactions.
• Analysis of essential oils from aromatic plants.
• Synthesis and purification of acetaminophen.
• Investigating the properties of polymers.
• Extraction of DNA from fruits or vegetables.
• Synthesis of nylon-6,6.
• Investigating the effects of different solvents on crystallization.
• Studying the reactions of carbohydrates.
• Synthesis of biodegradable plastics.
• Analysis of food additives using chromatography.
• Investigating the process of fermentation.
• Synthesis and characterization of bioderived materials.
• Studying the properties of antioxidants in foods.

Inorganic Chemistry Projects

• Synthesis and characterization of metal oxides.
• Investigating the properties of transition metal complexes.
• Preparation of metal nanoparticles and their applications.
• Studying the formation and properties of zeolites.
• Synthesis of coordination compounds.
• Investigating the redox properties of metal ions.
• Preparation and characterization of metal alloys.
• Studying the properties of rare earth elements.
• Synthesis of metal-organic frameworks (MOFs).
• Investigating the catalytic properties of metal nanoparticles.
• Preparation and properties of superconductors.
• Synthesis of semiconductor materials.
• Investigating the properties of carbon allotropes (e.g., graphite, diamond).
• Preparation and characterization of magnetic materials.
• Studying the properties of chalcogenides.
• Synthesis of nanocomposites for catalytic applications.
• Investigating the properties of perovskite materials.
• Preparation and characterization of phosphors.
• Studying the properties of metal halides.
• Synthesis of metal carbonyl complexes.

Analytical Chemistry Projects

• Development of a method for heavy metal detection in water samples.
• Analysis of food preservatives using spectroscopic techniques.
• Determination of vitamin C content in fruit juices.
• Quantification of caffeine in beverages using chromatography.
• Development of a method for pesticide analysis in fruits and vegetables.
• Analysis of air pollutants using gas chromatography.
• Determination of pH in household products.
• Quantitative analysis of alcohol content in beverages.
• Development of a method for drug analysis in pharmaceutical formulations.
• Analysis of mineral content in water samples.
• Determination of total dissolved solids (TDS) in water samples.
• Quantification of sugar content in soft drinks.
• Development of a method for forensic analysis of trace evidence.
• Analysis of heavy metals in soil samples.
• Determination of acidity in vinegar samples.
• Quantitative analysis of proteins in biological samples.
• Development of a method for antioxidant analysis in food samples.
• Analysis of volatile organic compounds (VOCs) in indoor air.
• Determination of chlorophyll content in plant samples.
• Quantification of nicotine in tobacco products.

Physical Chemistry Projects

• Investigation of reaction kinetics using spectrophotometry.
• Study of gas laws through Boyle’s and Charles’s experiments.
• Determination of the heat of neutralization using calorimetry.
• Investigation of solubility equilibria using conductivity measurements.
• Study of colligative properties through freezing point depression.
• Determination of molecular weight using vapor pressure measurements.
• Investigation of electrochemical cells and their applications.
• Study of phase transitions using differential scanning calorimetry (DSC).
• Determination of rate constants using the method of initial rates.
• Investigation of adsorption phenomena using surface area measurements.
• Study of the behavior of ideal and non-ideal gases.
• Determination of activation energy using the Arrhenius equation.
• Investigation of chemical equilibria using Le Chatelier’s principle.
• Study of reaction mechanisms using isotopic labeling techniques.
• Determination of the heat capacity of solids using calorimetry.
• Investigation of diffusion and osmosis phenomena.
• Study of molecular spectroscopy using UV-Vis spectroscopy.
• Determination of reaction enthalpy using Hess’s law.
• Investigation of acid-base titrations and pH indicators.
• Study of reaction rates using temperature-dependent kinetics.

Biochemistry Projects

• Isolation and characterization of enzymes from biological sources.
• Study of enzyme kinetics using spectrophotometry.
• Investigation of metabolic pathways using biochemical assays.
• Study of protein structure and function using SDS-PAGE.
• Analysis of nucleic acids using gel electrophoresis.
• Investigation of cellular respiration using respirometry.
• Study of photosynthesis using chlorophyll fluorescence.
• Analysis of biomolecules using mass spectrometry.
• Investigation of DNA replication using PCR.
• Study of gene expression using reporter assays.
• Analysis of protein-protein interactions using co-immunoprecipitation.
• Investigation of membrane transport using permeability assays.
• Study of signal transduction pathways using ELISA.
• Analysis of enzyme inhibition using kinetic assays.
• Investigation of DNA damage using comet assays.
• Study of protein folding using circular dichroism spectroscopy.
• Analysis of cell viability using MTT assays.
• Investigation of apoptosis using flow cytometry.
• Study of protein purification using chromatography techniques.
• Analysis of lipid metabolism using TLC.

Environmental Chemistry Projects

• Analysis of heavy metal contamination in urban soils.
• Study of water quality parameters in local streams.
• Investigation of air pollution sources using atmospheric sampling.
• Study of the effects of acid rain on aquatic ecosystems.
• Analysis of microplastics in marine environments.
• Investigation of nutrient pollution in freshwater systems.
• Study of pesticide residues in agricultural soils.
• Analysis of landfill leachate contaminants.
• Investigation of emerging contaminants in drinking water.
• Study of oil spill remediation techniques.
• Analysis of pharmaceuticals in wastewater treatment plants.
• Investigation of the effects of climate change on soil microbiota.
• Study of ozone depletion in the stratosphere.
• Analysis of indoor air pollutants in residential homes.
• Investigation of eutrophication in freshwater lakes.
• Study of bioaccumulation and biomagnification in food chains.
• Analysis of heavy metal uptake in aquatic plants.
• Investigation of the effects of deforestation on soil erosion.
• Study of greenhouse gas emissions from agricultural activities.
• Analysis of pollutants in urban stormwater runoff.

Interdisciplinary Chemistry Projects

• Development of nanomaterials for drug delivery applications.
• Study of the chemistry of art conservation and restoration.
• Investigation of the role of chemistry in renewable energy technologies.
• Study of the chemistry of food preservation techniques.
• Analysis of chemical communication in ecological systems.
• Investigation of the chemistry of brewing and fermentation.
• Study of the chemistry of cosmetics and personal care products.
• Analysis of the chemistry of natural and synthetic dyes.
• Investigation of the chemistry of perfume formulation.
• Study of the chemistry of materials science and engineering.
• Analysis of the chemistry of medicinal plants and herbal remedies.
• Investigation of the chemistry of wine production and aging.
• Study of the chemistry of biodegradable plastics.
• Analysis of the chemistry of flavor compounds in foods.
• Investigation of the chemistry of natural products and pharmaceuticals.
• Study of the chemistry of soil fertility and nutrient cycling.
• Analysis of the chemistry of water treatment technologies.
• Investigation of the chemistry of alternative fuels.
• Study of the chemistry of insecticides and pest control.
• Analysis of the chemistry of nanotechnology applications.

Advanced Chemistry Projects

• Synthesis and characterization of novel organic frameworks.
• Investigation of reaction mechanisms using computational chemistry.
• Study of advanced spectroscopic techniques for molecular analysis.
• Analysis of chemical kinetics using ultrafast laser spectroscopy.
• Investigation of catalytic reactions using surface science techniques.
• Study of quantum chemistry principles and applications.
• Analysis of supramolecular assemblies and host-guest interactions.
• Investigation of molecular modeling and simulation methods.
• Study of advanced materials for energy storage and conversion.
• Analysis of chemical dynamics and reaction kinetics.
• Investigation of organometallic catalysis for organic synthesis.
• Study of advanced techniques in NMR spectroscopy.
• Analysis of photochemical reactions and photophysics.
• Investigation of electron transfer processes in biological systems .
• Study of theoretical approaches to chemical bonding.
• Analysis of advanced electrochemical techniques.
• Investigation of non-covalent interactions in molecular recognition.
• Study of advanced techniques in mass spectrometry.
• Analysis of quantum dots and their applications in nanotechnology.
• Investigation of chemical sensors and biosensors.

Chemistry Education Projects

• Development of interactive chemistry teaching modules.
• Investigation of inquiry-based learning approaches in chemistry education.
• Study of the use of multimedia resources in chemistry instruction.
• Analysis of student misconceptions in chemistry learning.
• Investigation of the effectiveness of laboratory experiments in teaching chemistry concepts.
• Study of collaborative learning strategies in chemistry education.
• Analysis of the integration of technology in chemistry classrooms.
• Investigation of the role of assessment in promoting conceptual understanding in chemistry.
• Study of the impact of hands-on activities on student engagement in chemistry.
• Analysis of the use of real-world applications to enhance chemistry learning.
• Investigation of the implementation of flipped classroom models in chemistry education.
• Study of the development of critical thinking skills in chemistry students.
• Analysis of the role of feedback in improving student performance in chemistry.
• Investigation of the use of peer teaching and tutoring in chemistry education.
• Study of the incorporation of environmental chemistry concepts in the curriculum.
• Analysis of the influence of classroom climate on student motivation in chemistry.
• Investigation of the role of metacognition in chemistry problem-solving.
• Study of the use of concept maps and graphic organizers in chemistry instruction.
• Analysis of the impact of teacher professional development on student achievement in chemistry.
• Investigation of the use of authentic assessments in chemistry education.

Chemistry Outreach Projects

• Development of chemistry demonstration shows for public outreach events.
• Investigation of community-based science education programs in chemistry.
• Study of chemistry-themed science fairs and competitions.
• Analysis of chemistry outreach activities in underserved communities.
• Investigation of the role of science communication in promoting chemistry awareness.
• Study of chemistry-themed podcasts and educational videos.
• Analysis of chemistry outreach efforts in museums and science centers.
• Investigation of chemistry-themed summer camps and workshops.
• Study of chemistry outreach initiatives in schools and universities.
• Analysis of chemistry outreach efforts on social media platforms.
• Investigation of the impact of chemistry outreach on public perception of science.
• Study of chemistry-themed citizen science projects.
• Analysis of chemistry outreach programs for adults and lifelong learners.
• Investigation of the use of storytelling in chemistry outreach.
• Study of chemistry-themed art and literature projects.
• Analysis of chemistry outreach collaborations with industry partners.
• Investigation of the role of role models and mentors in chemistry outreach.
• Study of chemistry-themed escape rooms and puzzle games.
• Analysis of chemistry outreach efforts during national science weeks.
• Investigation of the use of virtual reality and augmented reality in chemistry outreach.
• Study of chemistry-themed science cafés and public lectures.
• Analysis of the impact of chemistry outreach on career aspirations in STEM fields.

Chemistry projects offer a dynamic and engaging way to explore the diverse facets of chemical science. Whether synthesizing new compounds, analyzing environmental samples, or unraveling biochemical processes, these projects foster curiosity, critical thinking, and innovation.

By delving into various chemistry project topics, students and enthusiasts can deepen their understanding of the world’s chemical complexity while contributing to scientific knowledge and societal progress.

So, let’s embark on this exciting journey of discovery and uncover the wonders of chemistry together!

Related Posts

Step by Step Guide on The Best Way to Finance Car

The Best Way on How to Get Fund For Business to Grow it Efficiently

68 Best Chemistry Experiments: Learn About Chemical Reactions

Whether you’re a student eager to explore the wonders of chemical reactions or a teacher seeking to inspire and engage your students, we’ve compiled a curated list of the top 68 chemistry experiments so you can learn about chemical reactions.

While the theories and laws governing chemistry can sometimes feel abstract, experiments bridge the gap between these concepts and their tangible manifestations. These experiments provide hands-on experiences illuminating the intricacies of chemical reactions, molecular structures, and elemental properties.

1. Covalent Bonds

By engaging in activities that demonstrate the formation and properties of covalent bonds, students can grasp the significance of these bonds in holding atoms together and shaping the world around us.

Learn more: Covalent Bonds

2. Sulfuric Acid and Sugar Demonstration

Through this experiment, students can develop a deeper understanding of chemical properties, appreciate the power of chemical reactions, and ignite their passion for scientific exploration.

3. Make Hot Ice at Home

Making hot ice at home is a fascinating chemistry experiment that allows students to witness the captivating transformation of a liquid into a solid with a surprising twist.

4. Make a Bouncing Polymer Ball

This hands-on activity not only allows students to explore the fascinating properties of polymers but also encourages experimentation and creativity.

Learn more: Thought Co

5. Diffusion Watercolor Art

This experiment offers a wonderful opportunity for students to explore the properties of pigments, observe how they interact with water, and discover the mesmerizing patterns and textures that emerge.

Learn more: Diffusion Watercolor Art

6. Exploding Baggie

The exploding baggie experiment is a captivating and dynamic demonstration that students should engage in with caution and under the supervision of a qualified instructor.

Learn more: Exploding Baggie

7. Color Changing Chemistry Clock

This experiment not only engages students in the world of chemical kinetics but also introduces them to the concept of a chemical clock, where the color change acts as a timekeeping mechanism.

Learn more: Color Changing Chemistry Clock

8. Pipe Cleaner Crystal Trees

By adjusting the concentration of the Borax solution or experimenting with different pipe cleaner arrangements, students can customize their crystal trees and observe how it affects the growth patterns.

Learn more: Pipe Cleaner Crystal Trees

9. How To Make Ice Sculptures

Through this experiment, students gain a deeper understanding of the physical and chemical changes that occur when water freezes and melts.

Learn more: Ice Sculpture

10. How to Make Paper

Through this hands-on activity, students gain a deeper understanding of the properties of cellulose fibers and the transformative power of chemical reactions.

Learn more: How to Make Paper

11. Color Changing Chemistry

Color changing chemistry is an enchanting experiment that offers a captivating blend of science and art. Students should embark on this colorful journey to witness the mesmerizing transformations of chemicals and explore the principles of chemical reactions.

12. Gassy Banana

The gassy banana experiment is a fun and interactive way for students to explore the principles of chemical reactions and gas production.

Learn more: Gassy Banana

13. Gingerbread Man Chemistry Experiment

This hands-on activity not only introduces students to the concepts of chemical leavening and heat-induced reactions but also allows for creativity in decorating and personalizing their gingerbread creations.

Learn more: Gingerbread Man Chemistry Experiment

14. Make Amortentia Potion

While the love potion is fictional, this activity offers a chance to explore the art of potion-making and the chemistry behind it.

Learn more: How to Make Amortentia Potion

15. Strawberry DNA Extraction

This hands-on experiment offers a unique opportunity to observe DNA, the building blocks of life, up close and learn about its structure and properties.

16. Melting Snowman

The melting snowman experiment is a fun and whimsical activity that allows students to explore the principles of heat transfer and phase changes.

Learn more: Melting Snowman

17. Acid Base Cabbage Juice

The acid-base cabbage juice experiment is an engaging and colorful activity that allows students to explore the pH scale and the properties of acids and bases.

By extracting the purple pigment from red cabbage leaves and creating cabbage juice, students can use this natural indicator to identify and differentiate between acidic and basic substances.

Learn more: Acid Base Cabbage Juice

18. Magic Milk

The magic milk experiment is a mesmerizing and educational activity that allows students to explore the concepts of surface tension and chemical reactions.

By adding drops of different food colors to a dish of milk and then introducing a small amount of dish soap, students can witness a captivating display of swirling colors and patterns.

Learn more: Magic Milk

19. Melting Ice with Salt and Water

Through this hands-on activity, students can gain a deeper understanding of the science behind de-icing and how different substances can influence the physical properties of water.

Learn more: Melting Ice with Salt and Water

20. Barking Dog Chemistry Demonstration

The barking dog chemistry demonstration is an exciting and visually captivating experiment that showcases the principles of combustion and gas production.

21. How to Make Egg Geodes

Making egg geodes is a fascinating and creative chemistry experiment that students should try. By using common materials like eggshells, salt, and food coloring, students can create their own beautiful geode-like crystals.

Learn more: How to Make Egg Geodes

22. Make Sherbet

This experiment not only engages the taste buds but also introduces concepts of acidity, solubility, and the chemical reactions that occur when the sherbet comes into contact with moisture.

Learn more: Make Sherbet

23. Hatch a Baking Soda Dinosaur Egg

As the baking soda dries and hardens around the toy, it forms a “shell” resembling a dinosaur egg. To hatch the egg, students can pour vinegar onto the shell, causing a chemical reaction that produces carbon dioxide gas.

Learn more: Steam Powered Family

24. Chromatography Flowers

By analyzing the resulting patterns, students can gain insights into the different pigments present in flowers and the science behind their colors.

Learn more: Chromatography Flowers

25. Turn Juice Into Solid

Turning juice into a solid through gelification is an engaging and educational chemistry experiment that students should try. By exploring the transformation of a liquid into a solid, students can gain insights of chemical reactions and molecular interactions.

Learn more: Turn Juice into Solid

26. Bouncy Balls

Making bouncy balls allows students to explore the fascinating properties of polymers, such as their ability to stretch and rebound.

 27. Make a Lemon Battery

Creating a lemon battery is a captivating and hands-on experiment that allows students to explore the fundamentals of electricity and chemical reactions.

28. Mentos and Soda Project

The Mentos and soda project is a thrilling and explosive experiment that students should try. By dropping Mentos candies into a bottle of carbonated soda, an exciting eruption occurs.

29. Alkali Metal in Water

The reaction of alkali metals with water is a fascinating and visually captivating chemistry demonstration.

30. Rainbow Flame

The rainbow flame experiment is a captivating and visually stunning chemistry demonstration that students should explore.

31. Sugar Yeast Experiment

This experiment not only introduces students to the concept of fermentation but also allows them to witness the effects of a living organism, yeast, on the sugar substrate.

32. The Thermite Reaction

The thermite reaction is a highly energetic and visually striking chemical reaction that students can explore with caution and under proper supervision.

This experiment showcases the principles of exothermic reactions, oxidation-reduction, and the high temperatures that can be achieved through chemical reactions.

33. Polishing Pennies

Polishing pennies is a simple and enjoyable chemistry experiment that allows students to explore the concepts of oxidation and cleaning methods.

34. Elephant Toothpaste

The elephant toothpaste experiment is a thrilling and visually captivating chemistry demonstration that students should try with caution and under the guidance of a knowledgeable instructor.

35. Magic Potion

Creating a magic potion is an exciting and imaginative activity that allows students to explore their creativity while learning about the principles of chemistry.

36. Color Changing Acid-Base Experiment

Through the color changing acid-base experiment, students can gain a deeper understanding of chemical reactions and the role of pH in our daily lives.

Learn more: Color Changing Acid-Base Experiment

37. Fill up a Balloon

Filling up a balloon is a simple and enjoyable physics experiment that demonstrates the properties of air pressure. By blowing air into a balloon, you can observe how the balloon expands and becomes inflated.

38. Jello and Vinegar

The combination of Jello and vinegar is a fascinating and tasty chemistry experiment that demonstrates the effects of acid on a gelatin-based substance.

Learn more: Jello and Vinegar

39. Vinegar and Steel Wool Reaction

This experiment not only provides a visual demonstration of the oxidation process but also introduces students to the concept of corrosion and the role of acids in accelerating the process.

Learn more: Vinegar and Steel Wool Reaction

40. Dancing Rice

The dancing rice experiment is a captivating and educational demonstration that showcases the principles of density and buoyancy.

By pouring a small amount of uncooked rice into a clear container filled with water, students can witness the rice grains moving and “dancing” in the water.

Learn more: Dancing Rice

41. Soil Testing Garden Science

Soil testing is a valuable and informative experiment that allows students to assess the composition and properties of soil.

By collecting soil samples from different locations and analyzing them, students can gain insights into the nutrient content, pH level, and texture of the soil.

Learn more: Soil Testing Garden Science

42. Heat Sensitive Color Changing Slime

Creating heat-sensitive color-changing slime is a captivating and playful chemistry experiment that students should try.

Learn more: Left Brain Craft Brain

43. Experimenting with Viscosity

Experimenting with viscosity is an engaging and hands-on activity that allows students to explore the flow properties of liquids.

Viscosity refers to a liquid’s resistance to flow, and this experiment enables students to investigate how different factors affect viscosity.

Learn more: Experimenting with Viscosity

44. Rock Candy Science

Rock candy science is a delightful and educational chemistry experiment that students should try. By growing their own rock candy crystals, students can learn about crystal formation and explore the principles of solubility and saturation.

Learn more: Rock Candy Science

45. Baking Soda vs Baking Powder

Baking soda and baking powder have distinct properties that influence the leavening process in different ways.

This hands-on experiment provides a practical understanding of how these ingredients interact with acids and moisture to create carbon dioxide gas.

46. Endothermic and Exothermic Reactions Experiment

The endothermic and exothermic reactions experiment is an exciting and informative chemistry exploration that students should try.

By observing and comparing the heat changes in different reactions, students can gain a deeper understanding of energy transfer and the concepts of endothermic and exothermic processes.

Learn more: Education.com

47. Diaper Chemistry

By dissecting a diaper and examining its components, students can uncover the chemical processes that make diapers so effective at absorbing and retaining liquids.

Learn more: Diaper Chemistry

48. Candle Chemical Reaction

The “Flame out” experiment is an intriguing and educational chemistry demonstration that students should try. By exploring the effects of a chemical reaction on a burning candle, students can witness the captivating moment when the flame is extinguished.

49. Make Curds and Whey

This experiment not only introduces students to the concept of acid-base reactions but also offers an opportunity to explore the science behind cheese-making.

Learn more: Tinkerlab

50. Grow Crystals Overnight

By creating a supersaturated solution using substances like epsom salt, sugar, or borax, students can observe the fascinating process of crystal growth. This experiment allows students to explore the principles of solubility, saturation, and nucleation.

Learn more: Grow Crystals Overnight

51. Measure Electrolytes in Sports Drinks

The “Measure Electrolytes in Sports Drinks” experiment is an informative and practical chemistry activity that students should try.

By using simple tools like a multimeter or conductivity probe, students can measure the electrical conductivity of different sports drinks to determine their electrolyte content.

52. Oxygen and Fire Experiment

The oxygen and fire experiment is a captivating and educational chemistry demonstration that students should try. By observing the effects of oxygen on a controlled fire, students can witness the essential role of oxygen in supporting combustion.

53. Electrolysis Of Water

The electrolysis of water experiment is a captivating and educational chemistry demonstration that students should try.

Learn more: Electrolysis Of Water

54. Expanding Ivory Soap

The expanding Ivory Soap experiment is a fun and interactive chemistry activity that students should try. By placing a bar of Ivory soap in a microwave, students can witness the remarkable expansion of the soap as it heats up.

Learn more: Little Bins Little Hands

55. Glowing Fireworks

This experiment not only introduces students to the principles of pyrotechnics and combustion but also encourages observation, critical thinking, and an appreciation for the physics and chemistry behind.

Learn more: Glowing Fireworks

56. Colorful Polymer Chemistry

Colorful polymer chemistry is an exciting and vibrant experiment that students should try to explore polymers and colorants.

By combining different types of polymers with various colorants, such as food coloring or pigments, students can create a kaleidoscope of colors in their polymer creations.

Learn more: Colorful Polymer Chemistry

57. Sulfur Hexafluoride- Deep Voice Gas

This experiment provides a firsthand experience of how the density and composition of gases can influence sound transmission.

It encourages scientific curiosity, observation, and a sense of wonder as students witness the surprising transformation of their voices.

58. Liquid Nitrogen Ice Cream

Liquid nitrogen ice cream is a thrilling and delicious chemistry experiment that students should try. By combining cream, sugar, and flavorings with liquid nitrogen, students can create ice cream with a unique and creamy texture.

59. White Smoke Chemistry Demonstration

The White Smoke Chemistry Demonstration provides an engaging and visually captivating experience for students to explore chemical reactions and gases. By combining hydrochloric acid and ammonia solutions, students can witness the mesmerizing formation of white smoke.

60. Nitrogen Triiodide Chemistry Demonstration

The nitrogen triiodide chemistry demonstration is a remarkable and attention-grabbing experiment that students should try under the guidance of a knowledgeable instructor.

By reacting iodine crystals with concentrated ammonia, students can precipitate nitrogen triiodide (NI3), a highly sensitive compound.

61. Make a Plastic- Milk And Vinegar Reaction Experiment

Through the “Make a Plastic – Milk and Vinegar Reaction” experiment, students can gain a deeper understanding of the chemistry behind plastics, environmental sustainability, and the potential of biodegradable materials.

Learn more: Rookie Parenting

62. Eno and Water Experiment

This experiment not only introduces students to acid-base reactions but also engages their senses as they witness the visible and audible effects of the reaction.

63. The Eternal Kettle Experiment

By filling a kettle with alcohol and igniting it, students can investigate the behavior of the alcohol flame and its sustainability.

64. Coke and Chlorine Bombs

Engaging in this experiment allows students to experience the wonders of chemistry firsthand, making it an ideal choice to ignite their curiosity and passion for scientific exploration.

65. Set your Hand on Fire

This experiment showcases the fascinating nature of combustion and the science behind fire.

By carefully following proper procedures and safety guidelines, students can witness firsthand how the sanitizer’s high alcohol content interacts with an open flame, resulting in a brief but captivating display of controlled combustion.

66. Instant Ice Experiments

The Instant Ice Experiment offers an engaging and captivating opportunity for students to explore the wonders of chemistry and phase changes.

By using simple household ingredients, students can witness the fascinating phenomenon of rapid ice formation in just a matter of seconds.

67. Coke Cans in Acid and Base

Engaging in this experiment allows students to gain a deeper understanding of the chemical properties of substances and the importance of safety protocols in scientific investigations.

68. Color Changing Invisible Ink

The Color Changing Invisible Ink experiment offers an intriguing and fun opportunity for students to explore chemistry and learn about the concept of chemical reactions.

Learn more: Research Parent

Similar Posts:

• Top 100 Fine Motor Skills Activities for Toddlers and Preschoolers
• 37 Water Science Experiments: Fun & Easy
• Top 40 Fun LEGO Science Experiments

Leave a Comment Cancel reply

Save my name and email in this browser for the next time I comment.

• You are here:
• American Chemical Society
• Students & Educators
• Educational Resources
• High School

High School Chemistry Education Resources

Acs education publications.

Access ChemMatters Magazine

ChemMatters , ACS's award-winning high school chemistry magazine, helps high school students make connections between chemistry and the world around them. 

Explore  free online articles , along with downloadable puzzles and Teacher’s Guides that contain reading comprehension questions and additional resources. Full digital issues are available by subscription or through AACT membership .

Get Access to Chemistry in the Community

A first-year high school textbook that teaches chemistry concepts through the lens of societal issues. Chemistry in the Community Webinars > Request e-Book >

Journal of Chemical Education

For those interested in the teaching and learning of chemistry at the middle school level and above. About the Journal >

Resources for Teaching High School Chemistry

Resources for Remote Teaching During the COVID-19 Pandemic – ChemEd X ChemEd X, published under the ACS Division of Chemical Education, curated this list of resources and lessons that teachers can use over the coming weeks.

How to Succeed in Online Classes During the COVID-19 Pandemic – inChemistry COVID-19 is a monster situation to deal with, but you can still take control of your learning and keep up with classes. Here are 6 things you can do to thrive in distance learning.

Energy Foundations for High School Chemistry Free, fully-developed laboratory investigations, demos, student readings, and multimedia you can use to teach the big ideas about energy. The entire collection is available for free download in PDF format.

Landmark Lesson Plans Inquiry-based student activities based on ACS National Historic Chemical Landmark subjects. Designed for use in high school chemistry and history lesson planning. Green Chemistry Educational Resources Introduce your students to green chemistry concepts.

Teaching Chemistry to Students with Disabilities (PDF) A manual for high schools, colleges, and graduate programs, 4th edition. Published by the ACS Committee on Chemists with Disabilities. Addresses needs of students with learning and physical disabilities.

High School Chemistry Safety Resources

Safety Data Sheets: Information that Could Save Your Life Teach your students how to assess hazards related to chemicals with this ChemMatters article.

ACS Guidelines and Recommendations for Teaching Middle and High School Chemistry Find research-based information about instruction, core ideas, safety, sustainability, and the professional responsibilities of teachers.

Chemical & Laboratory Safety - High School Labs Read guidelines and resources that were developed with high school teachers in mind, using the RAMP framework for scientific safety.

Support for Educators

Find more information for chemistry educators, including professional development opportunities, grants and awards, and standards and guidelines.

Opportunities for Students

Learn more about ACS programs and activities for high school students, including ACS ChemClub, Chemistry Olympiad, Project SEED, and the ACS Scholars program.

Resources by Topic

Accept & Close The ACS takes your privacy seriously as it relates to cookies. We use cookies to remember users, better understand ways to serve them, improve our value proposition, and optimize their experience. Learn more about managing your cookies at Cookies Policy .

1155 Sixteenth Street, NW, Washington, DC 20036, USA |  service@acs.org  | 1-800-333-9511 (US and Canada) | 614-447-3776 (outside North America)

• Terms of Use
• Accessibility

Copyright © 2024 American Chemical Society

Filter Results

• clear all filters

Resource Type

• Guided Lessons
• Lesson Plans
• Hands-on Activities
• Interactive Stories
• Online Exercises
• Printable Workbooks
• Science Projects 
• Song Videos

middle-school

• Foreign language 
• Science 
• Social studies
• Holidays 

Science Fair Project Ideas

ChatGPT for Teachers

Trauma-informed practices in schools, teacher well-being, cultivating diversity, equity, & inclusion, integrating technology in the classroom, social-emotional development, covid-19 resources, invest in resilience: summer toolkit, civics & resilience, all toolkits, degree programs, trauma-informed professional development, teacher licensure & certification, how to become - career information, classroom management, instructional design, lifestyle & self-care, online higher ed teaching, current events, chemistry project ideas that reinforce steam learning.

The science of chemistry is much more than observing reactions when combining two or more different types of chemicals. Our understanding of the universe, our planet, and humans as electrochemical beings is fundamentally based on understanding the principles of chemistry. This makes learning about chemical processes through experimentation vital to the concepts of Science, Technology, Engineering, Arts, and Mathematics (STEAM) . Student exposure to the fascinating world of chemistry is imperative to cultivating tomorrow’s doctors, physicists, researchers, and scientists. Here are some chemistry project ideas to foster students’ curiosity.

Elementary classroom chemistry projects

Invisible ink.

Sympathetic ink substances disappear and then reappear when heated.

Ink types: milk, lemon juice, vinegar, grapefruit juice, Windex, and cobalt chloride

Dip a paintbrush or Q-tip in lemon juice. Write something on a small piece of white paper. Let the “ink” dry before holding the paper over a toaster. Heat will magically cause the secret writing to appear.

Instructions for this project here .

Fizz inflator for balloons

Mixing vinegar and baking soda causes a reaction that creates carbon dioxide.

Supplies needed:

• Small balloon
• Empty plastic water or soda bottle
• 1/2 cup of vinegar
• Baking soda

Lava flowing in the classroom

Oil floats in water because it is less dense than water. However, salt sinks in water with oil because salt is more dense than oil.

• Food coloring
• One tsp of salt
• 1/4 cup of vegetable oil
• Transparent drinking glass

Make ice cream from scratch

This experiment shows an endothermic chemical process that allows ice cream to form out of the following ingredients:

• A bag of ice
• 4 oz of vitamin D milk
• 4 oz of cream
• 4 tsp of white sugar
• 1/4 tsp of vanilla flavoring
• 1/2 cup of rock salt
• Small and large Ziploc freezer bags

Fun with slime

This chemical experiment shows the unique quality of this compound to be both a liquid and a solid.

• Two disposable cups
• Elmer’s or white craft glue
• Borax powder
• Tablespoon and plastic tsp for measuring and stirring

Heat-producing chemical reactions

How common household items produce heat when combined.

• One thermometer
• One medium-sized bowl
• Stirring stick
• 1/4 cup of hydrogen peroxide
• One tsp of yeast

Middle school classroom chemistry projects

Growing crystals.

Chemical reactions needed to create crystals involve making a solution that cause solute particles to coalesce and build a nucleus.

• A flower with a strong stem

Never-ending lava lamp

A heat source causes oil to expand faster than alcohol and then cool, demonstrating changes in density caused by thermal expansion.

• Glass container that can be sealed
• Baby or mineral oil
• 70% and 90% alcohol
• Incandescent light bulb

Separating salt and sand

This experiment investigates the concepts of solubility and insolubility.

• 8 oz canning jars
• Magnifying glass
• Graduated cylinder
• Coffee filter

Explore exothermic chemical reactions, crystallization, and the science behind supercooling.

• 4 Tbl of baking soda
• One liter of clear vinegar

Mini lemon volcano

Explore chemical reactions involving baking soda and citric acid. Stirring baking soda and citric acid increases frothiness.

• Two lemons to make one volcano
• Craft sticks
• Spoons and cups
• Medium-sized tray

Fizzing bath bombs

Students can explore the chemical concept of neutralization while doing this experiment.

• Kitchen scales
• Spray bottle
• Citric acid
• Bicarbonate of soda
• Lavender oil
• Tennis ball (optional)

High school classroom chemistry projects

Luminescent chemical reaction.

How a specific chemical reaction produces light energy without creating heat.

• Anhydrous sodium carbonate
• Sodium bicarbonate
• Ammonium carbonate monohydrate
• 3% hydrogen peroxide
• Copper sulfate
• Funnel, flask, and spiral condenser

How to make a pH indicator

Understand what a pH scale is and why it is an essential part of learning about chemistry by having students make their own pH indicator.

• Two cups of chopped red cabbage
• One cup of water

Magic trick: Burning a one-dollar bill (not really!)

Explore the chemical reactions among paper money, alcohol, oxygen, and carbon dioxide.

• One $1 bill
• Lighter or matches
• Salt to make colored flames
• Solution of 50% water and 50% alcohol

POP! goes the nitrogen triiodide

When iodine crystals react with concentrated ammonia, it creates nitrogen triiodide and a loud popping sound.

• At least one gram of iodine
• Concentrated aqueous ammonia
• Paper towels or other filter papers
• Long stick with a feather attached to it

Splitting water molecules: Electrolysis of water

This project allows students to explore the concept of battery energy used to induce chemical reactions that do not occur spontaneously.

• 9-volt battery
• Metal thumbtacks
• Clean, clear plastic water bottle
• Plastic cup or beaker
• Black permanent marker
• Modeling clay or paper towels

Revealing different pigment chemicals in leaves

Students learn about chromatography and the chemical concept of solubility.

• Fresh, green leaves or fresh spinach leaves
• Food processor or mortar and pestle
• Ceramic or glass cup
• Coffee filters
• Isopropyl alcohol
• Straw or pencil

For further information about teaching the concepts of STEAM, visit our STEAM Teaching resource page for more fascinating and fun activity ideas.

You may also like to read

• 10 Creative STEAM Classroom Project Ideas for the Holidays
• Three Websites For Project-Based Learning
• Teaching Algebra Using Project-Based Learning
• An Introduction to Project-Based Learning
• Math Project Ideas for the Ninth Grade
• Get Your Students More Involved With Project-Based Learning

Categorized as: Tips for Teachers and Classroom Resources

Tagged as: Mid-Career Teacher ,  New Teacher ,  Science ,  STEAM ,  Veteran Teacher

• Bachelor's in Physical Education
• Online Masters in Education for Teachers | ME...
• Certificates for Reading Specialist

Top 151 Chemistry Project Topics for BSC Students

In the realm of science, chemistry stands as a cornerstone of knowledge and discovery. For BSc students, it goes beyond being just another subject; it’s an exciting realm of exploration and experimentation. Chemistry projects serve as the catalyst for deeper understanding and the development of essential practical skills. If you’re a BSc student seeking captivating and feasible chemistry project ideas, you’ve landed in the perfect spot. 

This blog delves into chemistry project topics for BSC students that are not only intriguing but also well within your reach. Whether you’re passionate about inorganic compounds, fascinated by organic reactions, or intrigued by the mysteries of the periodic table, there’s something here to pique your interest and elevate your chemistry journey. Let’s embark on this fascinating chemical adventure together.

Table of Contents

What is the Chemistry Project Topic?

A chemistry project topic refers to a specific subject or area within the field of chemistry that a student or researcher chooses to study and explore in-depth. It serves as the central theme or focus of a research project, experiment, or study in the realm of chemistry. These topics can cover a wide range of areas within chemistry, including inorganic chemistry, organic chemistry, physical chemistry, analytical chemistry, biochemistry, environmental chemistry, industrial chemistry, and materials science, among others.

In simpler terms, a chemistry project topic is the question or area of interest that a student or researcher aims to investigate, experiment with, or study to gain a better understanding of chemical processes, reactions, or phenomena. It’s the starting point that guides the research and experimentation process in the field of chemistry.

How do you start a chemistry project?

Before we dive into the chemistry project topics for BSC students, you need to know the steps to start a chemistry project. Here are simple steps to start a chemistry project:

1. Select a Topic: Choose a specific area of chemistry that interests you and aligns with your academic goals.

2. Research: Conduct preliminary research to understand existing knowledge and identify gaps in the field.

3. Define Objectives: Clearly outline your project’s goals and what you aim to achieve.

4. Plan Experiments: Develop a detailed experimental plan, including materials, procedures, and safety measures.

5. Gather Materials: Acquire the necessary chemicals, equipment, and resources.

6. Conduct Experiments: Follow your plan, record data meticulously, and maintain safety protocols.

7. Analyze Data: Interpret your results, draw conclusions, and identify any unexpected findings.

8. Prepare Reports: Document your project’s methodology, results, and conclusions in a comprehensive report.

9. Presentation: Share your findings through presentations, posters, or reports, and be prepared for questions and discussions.

10. Seek Guidance: Consult with mentors or advisors for guidance and feedback throughout the project.

Also Read: CPP Project Topics for Computer Engineering

List of Best Chemistry Project Topics for BSC Students

Discover the list of chemistry project topics for BSC students:

Analytical Chemistry

1. Determination of Heavy Metal Contamination in Drinking Water.

2. Analysis of Food Additives in Common Snack Foods.

3. Quantitative Analysis of Vitamin C Content in Various Fruits.

4. Identification of Unknown Substances Using Spectroscopy.

5. Development of a pH Sensor for Environmental Monitoring.

6. Analysis of Pharmaceuticals in Wastewater.

7. Study of Pollution in Urban and Rural Areas.

8. Determination of Antioxidant Capacity in Different Teas.

9. Analyzing Air Quality in Industrial and Residential Areas.

10. Detection of Pesticide Residues in Agricultural Products.

11. Analysis of Alcohol Content in Commercial Beverages.

12. Investigation of Water Hardness in Different Locations.

13. Monitoring Nitrate Levels in Groundwater.

14. Analyzing the Composition of Essential Oils.

15. Quantifying Sugar Levels in Soft Drinks.

Organic Chemistry

1. Synthesis of Aspirin from Salicylic Acid.

2. Isolation and Identification of Natural Pigments from Plants.

3. Study of Organic Reactions in the Formation of Biodiesel.

4. Analysis of Aromatics in Perfumes and Fragrances.

5. Extraction of Essential Oils from Aromatic Plants.

6. Synthesis and Characterization of Nylon-6,6.

7. Investigating the Chemistry of Natural Dyes.

8. Synthesis of Biodegradable Polymers.

9. Preparation of Soap and Detergents.

10. Isolation and Characterization of Bioactive Compounds from Medicinal Plants.

11. Investigating the Properties of Different Biofuels.

12. Study of Polymer Blends and Composites.

13. Analysis of Chemical Composition in Food Flavors.

14. Synthesis of Green Chemistry Products.

15. Isolation and Characterization of Natural Rubber.

Inorganic Chemistry

1. Synthesis and Characterization of Metal-Organic Frameworks (MOFs).

2. Study of Transition Metal Complexes in Catalysis.

3. Analysis of Heavy Metals in Soil and Sediments.

4. Investigating the Properties of Nanomaterials.

5. Preparation and Properties of Ceramic Materials.

6. Synthesis of Superconductors and Their Applications.

7. Analysis of Minerals and Ores.

8. Study of Rare Earth Elements in Electronics.

9. Investigation of Zeolites for Environmental Remediation.

10. Determination of Metal Ions in Drinking Water.

11. Synthesis of Inorganic Pigments.

12. Analysis of Crystal Structures in Minerals.

13. Study of Non-Metal Compounds in Batteries.

14. Investigation of Lanthanide Complexes.

15. Synthesis of Phosphors for LED Applications.

Physical Chemistry

1. Study of Chemical Kinetics Using Reaction Rates.

2. Investigation of Electrochemical Cells.

3. Analysis of Thermodynamic Properties in Chemical Reactions.

4. Study of Quantum Mechanics and Molecular Structure.

5. Determination of Surface Tension of Liquids.

6. Investigating the Behavior of Gases at Different Pressures.

7. Analysis of Heat Transfer in Chemical Reactions.

8. Study of Colloidal Chemistry and Applications.

9. Investigation of Phase Equilibria in Mixtures.

10. Determination of Viscosity in Liquids.

11. Study of Molecular Spectroscopy Techniques.

12. Investigation of Quantum Dots for Photovoltaic Applications.

13. Analysis of Chemical Equilibrium in Biological Systems.

14. Study of Photochemistry and Its Applications.

15. Investigation of Thermoelectric Materials.

Environmental Chemistry

1. Analysis of Greenhouse Gas Emissions.

2.  Investigation of Water Pollution Sources and Remediation.

3. Study of Air Pollution and Its Effects on Health.

4. Analysis of Persistent Organic Pollutants (POPs).

5. Investigation of Acid Rain Formation and Effects.

6. Study of Heavy Metal Contamination in Soils.

7. Analysis of Plastics and Microplastics in the Environment.

8. Investigation of Oil Spill Cleanup Methods.

9. Study of Eutrophication in Aquatic Ecosystems.

10 . Analysis of Environmental Impact of Pharmaceuticals.

11. Investigation of Nanomaterials in Environmental Cleanup.

12. Study of Natural Remediation Processes.

13. Analysis of Environmental Changes Due to Deforestation.

14. Investigation of Renewable Energy Sources.

15. Study of Climate Change Mitigation Strategies.

Biochemistry

1. Study of Enzyme Kinetics and Catalysis.

2. Investigation of DNA Extraction and Analysis.

3. Analysis of Proteins and Amino Acid Composition.

4. Study of Lipid Metabolism and Fatty Acid Analysis.

5. Investigation of Carbohydrate Chemistry.

6. Study of Metabolic Pathways in Microorganisms.

7. Analysis of Antioxidants in Biological Samples.

8. Investigation of Enzyme Inhibition.

9. Study of DNA Replication and Repair Mechanisms.

10. Investigation of Cellular Signaling Pathways.

11. Analysis of Biochemical Markers in Disease Diagnosis.

12. Study of Protein Folding and Misfolding Diseases.

13. Investigation of Drug-Enzyme Interactions.

14. Study of Recombinant DNA Technology.

15. Analysis of Biochemical Pathways in Cancer.

Medicinal Chemistry

1. Investigation of Drug Synthesis and Development.

2. Study of Pharmacokinetics and Drug Delivery Systems.

3. Analysis of Natural Products as Drug Candidates.

4. Investigation of Antibiotics and Antimicrobial Resistance.

5. Study of Drug-Drug Interactions and Toxicology.

6. Analysis of Drug Formulation and Stability.

7. Investigation of Drug Design and Molecular Docking.

8. Study of Anti-Cancer Agents and Targeted Therapies.

9. Analysis of Drug Metabolism and Pharmacodynamics.

10. Investigation of Herbal Medicines and Traditional Remedies.

11. Study of Neurotransmitters and Psychopharmacology.

12. Analysis of Vaccines and Immunology.

13. Investigation of Antiviral Drug Development.

14. Study of Cardiovascular Drugs.

15. Analysis of Personalized Medicine Approaches.

Materials Chemistry

1. Investigation of Nanomaterials for Energy Storage.

2. Study of Polymers in Packaging Materials.

3. Analysis of Smart Materials and Their Applications.

4. Investigation of Biomaterials in Medical Devices.

5. Study of Superconducting Materials.

6. Analysis of Magnetic Materials for Electronics.

7. Investigation of Conductive Polymers.

8. Study of Photovoltaic Materials.

9. Analysis of Materials for Water Purification.

10. Investigation of 3D Printing Materials.

11. Study of Advanced Ceramics.

12. Analysis of Composite Materials.

13. Investigation of Liquid Crystals.

14. Study of Materials for Sustainable Construction.

15. Investigation of Materials for Environmental Remediation.

Industrial Chemistry

1. Investigation of Chemical Processes in the Petrochemical Industry.

2. Study of Quality Control in Food and Beverage Production.

3. Analysis of Chemical Additives in Cosmetics.

4. Investigation of Chemical Engineering in Pharmaceutical Manufacturing.

5. Study of Sustainable Chemical Production.

6. Analysis of Chemical Processes in Textile Industry.

7. Investigation of Chemical Analysis Techniques in Forensics.

8. Study of Chemical Processes in Water Treatment Plants.

9. Analysis of Chemical Reactions in the Semiconductor Industry.

10. Investigation of Chemical Processes in Paper and Pulp Manufacturing.

11. Study of Chemical Processes in Paint and Coating Production.

12. Analysis of Chemical Processes in the Oil Refining Industry.

13. Investigation of Chemical Processes in Agriculture.

14. Study of Chemical Processes in Mining and Metallurgy.

15. Analysis of Chemical Processes in the Automotive Industry.

Theoretical Chemistry

1. Investigation of Quantum Chemistry Methods.

2. Study of Computational Chemistry in Drug Discovery.

3. Analysis of Molecular Modeling Techniques.

4. Investigation of Density Functional Theory (DFT).

5. Study of Chemical Bonding Theories.

6. Analysis of Statistical Mechanics in Chemical Systems.

7. Investigation of Theoretical Approaches to Chemical Reactions.

8. Study of Molecular Dynamics Simulations.

9. Analysis of Quantum Computing in Chemistry.

10. Investigation of Computational Approaches to Material Design.

11. Study of Theoretical Studies in Surface Chemistry.

12. Analysis of Quantum Chemical Calculations in Spectroscopy.

13. Investigation of Theoretical Chemistry in Environmental Modeling.

14. Study of Quantum Monte Carlo Methods.

15. Analysis of Machine Learning Applications in Chemistry.

16. Investigation of Artificial Intelligence in Drug Discovery.

Choosing the right chemistry project topic is essential for BSc students, as it allows them to delve deep into their area of interest, gain practical experience, and contribute to the field of chemistry. The 151 chemistry project topics for BSC students listed here cover a wide range of categories, from analytical and organic chemistry to materials science and theoretical chemistry.

Remember to select a topic that aligns with your interests and career goals. Whether you are passionate about environmental issues, interested in the pharmaceutical industry, or fascinated by theoretical chemistry, there’s a project topic waiting for you.

Additionally, always consult with your professors or advisors for guidance and support throughout your project. With dedication, curiosity, and the right topic, you can make a meaningful contribution to the world of chemistry while advancing your academic and professional journey. 

FAQs (Chemistry Project Topics for BSC Students)

1. can i change my chemistry project topic after starting the research.

It’s possible, but it’s advisable to finalize your topic early to avoid complications later.

2. Are there any online resources for chemistry project ideas?

Yes, you can find numerous resources online, including academic journals, research papers, and university websites.

Leave a Comment Cancel Reply

Your email address will not be published. Required fields are marked *

Save my name, email, and website in this browser for the next time I comment.

12 Chemistry Research and Passion Project Ideas For High School Students

By Alex Yang

Graduate student at Southern Methodist University

8 minute read

Chemistry is much more than just a subject taught in classrooms, it's also the science that explains the world at the molecular level. For students with an interest in experimentation, the elements that make up our universe, and a desire to dive deeper into careers like nutrition, medicine, environmental science, or energy, creating a chemistry passion project can be a valuable journey. A unique aspect of a chemistry passion project is that it has the flexibility to be more research oriented, or more hands-on and experimental.

In this article, we’ll dive into chemistry research and passion project ideas that you can either try to execute on your own or use as inspiration for a project you design. We’ll also cover how you can decide which project or topic to focus on, and navigate the diverse range of ideas within the field of chemistry.

Finding Your Chemistry Passion Project Focus

There are many different directions you can take with your chemistry passion project, so first it’s important to sit down and think through what specific topics within chemistry you’re interested in. Maybe you’re more interested in the medical side of chemistry, or perhaps you’re intrigued by the environmental science applications of chemistry. If you find yourself in that position, great! You can choose to dive deeper into any of those interests. 

After you’ve found some initial passion project ideas , the easiest step from there is just to Google or YouTube those topics and start learning more about them. You’ll find that as you start to conduct preliminary research into a few ideas, one will start to stand out to you more.

12 Chemistry Passion Project Ideas

1. what's in my water .

Most water contains heavy metal ions such as copper, iron, and zinc. Not all metal ions are bad but at high concentrations they can be unsafe. In this project you could collect water samples within your community and measure the metal ion levels such as ferric and ferrous water. Research techniques for how to accurately measure metal ion levels in water. In this project, you’ll learn more analytical chemistry techniques and explore a question relevant to public health.

Idea by chemistry research mentor Grace

2. Ocean acidification 

As the world moves towards global warming, we are seeing increasing concentration of carbon dioxide in the atmosphere. This constantly shifts the equilibrium of carbon dioxide in the atmosphere and the concentration of carbon dioxide in the ocean, forming an acidic compound that results in lowering the pH of the ocean gradually. This can have detrimental effects on organisms that live there. This project could be used to do a deeper dive into the acidification rate of the ocean and examine potential impacts to specific organisms living in the ocean.

Idea by chemistry research mentor Janson

3. Metals for life 

If asked about metals important to life, chances are iron and calcium would first come to mind, as they are important parts of our blood and bones. There are many more metals that are needed for essential biological functions, however. In this project you will dive into scientific literature to learn about different life metals, find out what their roles are in biology, and learn what kind of life forms need them. You will also learn about the newest addition to the life metals - the lanthanides. Then, choose one life metal and review two recent scientific articles involving your metal of choice. Finally, generate a description of the metal's function in biology. Your creativity is the limit as to how you show the importance of metals for life.

Idea by chemistry research mentor Nathan

4. Sustainable chemical production 

Most chemicals in our world today are produced with petrochemical feedstocks (e.g., oil, natural gas). Research and discuss the possibility for replacing the petrochemical feedstock with a renewable one, such as biomass. What are the current realistic options? Which chemicals can be (and are already) produced with renewable feedstocks and which chemicals will be more difficult or require more research to produce sustainably?

Idea by chemistry research mentor James

5. Sleep medication: a bottle of lies or a bottle of dreams? 

There are many drugs and other substances (such as melatonin) that are prescribed to people that have issues sleeping. However many of these medications have mixed efficacy and it is unknown exactly what they do. This project could revolve around investigating a currently known drug/ substance (e.g., Ambien, melatonin), and researching how the drug affects the brain and its efficacy. You could also investigate potential future sleep therapies that could have better results than the current sleep drug market. Another potential route is developing a survey to determine how well these drugs are helping people sleep.

Idea by chemistry research mentor Sean

6. All about rubber

Polymers are some of the most relevant and impactful materials for everyday life, and the basis of all polymer science lies in understanding the structure-property relationships present in these macromolecules. In this project, you will gain a better understanding of the chemical and mechanical properties of rubber, an extremely familiar yet remarkably unique polymeric material. Through either hands-on experimentation or an in-depth literature review, you will research the chemical structure of rubber in order to understand the effect of temperature and vulcanization on its mechanical behavior. 

Idea by chemistry research mentor Sarah

7. Battery storage 

Batteries are proving to be a great way to store large amounts of energy from intermittent renewable sources. This project could involve researching current battery technologies and showing through graphs or some other visual representation of how much battery storage a city (or state/province) would need to run 100% off of renewable sources.

Idea by chemistry research mentor Landon

8. Designing a chemical production process 

In this project, a student will work on designing a chemical production process for a chemical. They would research the chemical reaction, learn about the critical research and engineering decisions that go into engineering a process, and propose a design for a more efficient manufacturing route.

Idea by chemistry research mentor Lucas

9. Water absorbent polymers for home gardening 

You'll conduct experiments and/or conduct surveys to determine what commercially-available water absorbent polymers are useful and cost-effective for home gardeners and write a research paper summarizing your results. You'll dive into polymer and agriculture science while also learning core research skills.

10. Why do some people respond differently to diabetes treatments?

Approximately 37 million Americans have diabetes . However, the response to diabetes treatment can be variable as a result of the many mutations. Using published literature and online databases, identify the most common type 2 diabetes medications and the genetic mutations that cause differential responses to these medications.

Idea by chemistry research mentor Geralle

11. Understanding novel non-opioid pain therapies 

Opioids, though very effective in managing specific pain states, are extremely dangerous and can often lead to overdose. The dual chronic pain and opioid epidemic outline the need for novel, non-opioid therapies to treat pain. In this project, you can look to understand more about current opioid shortcomings, the landscape of emerging pain therapies, and the future of pain management in the United States.

Idea by chemistry research mentor David

12. Is nuclear energy worth pursuing? 

The world faces a climate crisis, one in which immediate and drastic action is needed. Promising technologies such as nuclear power have faced public opposition and regulatory hurdles for years. Explore whether it is technically viable (i.e., is it better than other energy generation techniques?) and practically acceptable (i.e., is it safe and what are the long-term consequences?) to pursue nuclear energy.

Idea by chemistry research mentor Uday

How to Showcase Your Chemistry Passion Project

After you’ve put in all the hard work of researching and learning new skills, it’s also equally important to decide how you want to showcase your project . You can see that in many of the project ideas above, there is a clear topic of focus but the final product of the project is open-ended. You could try to publish a research paper, create a podcast or video, or even create an informative blog or website. You’ll find that although many project ideas may feel like they should culminate in a paper, many actually lend themselves well to another form of showcasing. Try to be creative and showcase your work in a way that feels authentic to you!

Examples of Chemistry Passion Projects Completed by Polygence Students

There are several chemistry passion projects created by Polygence students that we want to highlight and show for inspiration! 

Nicolette was able to explore how diseases like typhoid, malaria, and COVID-19 are cured using African herbal remedies and why the field is declining, culminating in a research paper and blog post. 

Natasha’s project explored how the inclusion of specific enzymes in sunscreen can help people with UV-induced skin diseases. Natasha’s project was presented in the form of a review paper.

Want to start a project of your own?

Click below to get matched with one of our expert mentors who can help take your project off the ground!

In this article, we covered how to find a chemistry passion project that interests you and shared 12 different research and passion project ideas from our extensive network of research mentors. Of course, these are just a few of many different potential chemistry project ideas, and we encourage you to be curious and explore chemistry project ideas beyond this list.

If you’re interested in pursuing a chemistry passion project, Polygence’s programs are a great place to start and learn from excellent mentors.

Related Content

STEM Research Paper Outlines: The Ultimate Guide

Skimming Articles for Research: A How-To

How to Write a Research Paper as a High School Student

Why Passion is Important for Success in Work and Life

Science Experiments for High School Students: How to Do Them at Home

Do Your Own Research Through Polygence

Your passion can be your college admissions edge! Polygence provides high schoolers a personalized, flexible research experience proven to boost your admission odds. Get matched to a mentor now!"

Your browser is not supported

Sorry but it looks as if your browser is out of date. To get the best experience using our site we recommend that you upgrade or switch browsers.

Find a solution

• Skip to main content
• Skip to navigation

• Back to parent navigation item
• Primary teacher
• Secondary/FE teacher
• Early career or student teacher
• Higher education
• Curriculum support
• Literacy in science teaching
• Periodic table
• Interactive periodic table
• Climate change and sustainability
• Resources shop
• Collections
• Remote teaching support
• Starters for ten
• Screen experiments
• Assessment for learning
• Microscale chemistry
• Faces of chemistry

Classic chemistry experiments

• Nuffield practical collection
• Anecdotes for chemistry teachers
• On this day in chemistry
• Global experiments
• PhET interactive simulations
• Chemistry vignettes
• Context and problem based learning
• Journal of the month
• Chemistry and art
• Art analysis
• Pigments and colours
• Ancient art: today's technology
• Psychology and art theory
• Art and archaeology
• Artists as chemists
• The physics of restoration and conservation
• Ancient Egyptian art
• Ancient Greek art
• Ancient Roman art
• Classic chemistry demonstrations
• In search of solutions
• In search of more solutions
• Creative problem-solving in chemistry
• Solar spark
• Chemistry for non-specialists
• Health and safety in higher education
• Analytical chemistry introductions
• Exhibition chemistry
• Introductory maths for higher education
• Commercial skills for chemists
• Kitchen chemistry
• Journals how to guides
• Chemistry in health
• Chemistry in sport
• Chemistry in your cupboard
• Chocolate chemistry
• Adnoddau addysgu cemeg Cymraeg
• The chemistry of fireworks
• Festive chemistry
• Education in Chemistry
• Teach Chemistry
• On-demand online
• Live online
• Selected PD articles
• PD for primary teachers
• PD for secondary teachers
• What we offer
• Chartered Science Teacher (CSciTeach)
• Teacher mentoring
• UK Chemistry Olympiad
• Who can enter?
• How does it work?
• Resources and past papers
• Top of the Bench
• Schools' Analyst
• Regional support
• Education coordinators
• RSC Yusuf Hamied Inspirational Science Programme
• RSC Education News
• Supporting teacher training
• Interest groups

• More navigation items

Expertly communicate the excitement of chemistry with these time-tested classroom practicals.

These resources have been compiled from the book Classic chemistry experiments : a collection of 100 chemistry experiments developed with the support of teachers throughout the UK.

If you'd like to buy a copy of the book, visit our online bookshop . If you're a Royal Society of Chemistry member, don't forget to use your 35% discount.

A Cartesian diver

An old favourite experiment, the Cartesian diver is easy for students to complete. Explore important ideas that build a foundation of knowledge. 

Chemistry and electricity

Create coloured writing from acids, alkali, and salt solution, all activated through electrolysis.

Disappearing ink

Explore the reaction between acids and bases as students create disappearing ink, in this favourite classroom practical.

Electricity from chemicals

Use various metals, in pairs, and n electrolyte to form a cell. Then observe the formation of ions around the reactive metal, and compare the speed with which they form around the less reactive metal. Includes kit list and safety instructions. 

Experiments with particles

Explore physical states, and how material interact with three practicals. Students use common classroom items to explore, and then note their findings. Includes kit list and safety instructions. 

Identifying the products of combustion

In association with Nuffield Foundation

Illustrate the presence of water and carbon dioxide in the products of hydrocarbon combustion in this demonstration. Includes kit list and safety instructions.

Particles in motion?

Explore the movement of gas particles in this practical but reacting calcium carbonate with hydrochloric acid. Includes kit list and safety instructions. 

Producing a foam

Explore foams and their properties in this experiment, so students learn how foam is produced and produce their own. Includes kit list and safety instructions.

Properties of the transition metals and their compounds

Student discover the diversity of transition metals in this practical that puts their knowledge of these common elements to the test. Includes kit list and safety instructions.

Rubber band experiment

A rubber band, a hairdryer, and a curious mind will see students discover the principles of heat based reactions. Includes kit list and safety instruction.

Testing salts for anions and cations

A full range of chemicals will guide students into discovering how to identify the composition of unknown substances. Includes kit list and safry instructions. 

The effect of concentration and temperature on reaction rate

Reaction rate can be altered by many things, in this practical students explore how temperature and concentration effect reaction in an closer look at kinetics. Includes kit list and safety instructions. 

The effect of temperature on reaction rate

Discover more about collision theory in this practical, where a sodium thiosulfate and hydrochloric acid mixture produce an interesting reaction. Includes kit list and safety instructions. 

The effect of temperature on solubility

Hot or cold, which water is better for soluble substances? Explore your finding from this practical into the effect of temperature on solubility. Includes kit list and safety instructions. 

The electrolysis of solutions

Electricity is passed through various solutions and the products are identified. Includes kit list and safety instructions

The preparation and properties of oxygen

Produce a potassium manganate(VII) reaction using a test tube, Bunsen burner, and scientific inquisition to detect the presence of oxygen. Includes kit list and safety instructions.

The reactivity of the group 2 metals

Compare group 1 and group 2 metals with this practical that shows their reactivity rates, where students can take control of their own observations and come to their own conclusions

The volume of 1 mole of hydrogen gas

Understand the volume of one mole of hydrogen gas through a magnesium and acid reaction, taking note of the temperature and pressure. Includes kit list and safety instructions. 

Compare the viscosity of thick and thin liquids in this experiment, which gets young learners exploring how viscosity alters the speed of an air bubble through the substances. Includes kit list and safety instructions.

• Contributors
• Email alerts

Site powered by Webvision Cloud

Journals, books & databases

• Our journals

Chemistry Education Research and Practice

The free to access journal for teachers, researchers and other practitioners in chemistry education

You can find details about how to access information remotely in this step-by-step guide . The guide will also help if for any reason you have difficulty accessing the content you want.

What would you like to know about Chemistry Education Research and Practice?

Impact factor: 2.6*

Time to first decision (all decisions): 25.0 days**

Time to first decision (peer reviewed only): 40.0 days***

Editor: Scott Lewis

Chair: David F Treagust

Indexed in Scopus and Web of Science

Read this journal

Submit an article

Sign up for regular email alerts

View all journal metrics

Chemistry Education Research and Practice (CERP) is the journal for teachers, researchers and other practitioners at all levels of chemistry education. It is published free of charge electronically four times a year, thanks to sponsorship by the Royal Society of Chemistry's Education Division. Coverage includes the following:

• Research, and reviews of research, in chemistry education
• Evaluations of effective innovative practice in the teaching of chemistry
• In-depth analyses of issues of direct relevance to chemistry education

The objectives of the journal:

• To provide researchers with the means to publish their work in full in a journal exclusively dedicated to chemistry education
• To offer teachers of chemistry at all levels a place where they can share effective ideas and methods for the teaching and learning of chemistry
• To bridge the gap between the two groups so that researchers will have their results seen by those who could benefit from using them, and practitioners will gain from encountering the ideas and results of those who have made a particular study of the learning process

Guidance on the nature of acceptable contributions can be found in Recognising quality in reports of chemistry education research and practice .

Meet the team

Find out who is on the editorial and advisory boards for the  Chemistry Education Research and Practice (CERP) journal.

David F Treagust ,  Curtin University of Technology, Australia

Scott  Lewis ,  University of South Florida, USA

Deputy editor

Nicole Graulich , Justus-Liebig Universität Gießen, Germany

Associate editors

Jack Barbera , Portland State University, USA

Mageswary Karpudewan , Universiti Sains Malaysia (USM)

James Nyachwaya , North Dakota State University, USA

Editorial board members

Mei-Hung Chiu , National Taiwan Normal University, Taiwan

Resa Kelly , San Jose State University, USA

Gwen Lawrie , University of Queensland, Australia

David Read , University of Southampton, UK

Bill Byers , University of Ulster, UK

Melanie Cooper , Michigan State University, USA

Onno de Jong, University of Utrecht, Netherlands Iztok Devetak , University of Ljubljana, Slovenia

Odilla Finlayson , Dublin City University, Ireland

Loretta Jones , University of Northern Colorado, USA

Orla Catherine Kelly , Church of Ireland College of Education, Ireland

Scott Lewis, Editor, University of South Florida, USA

Iwona Maciejowska, Jagiellonian University, Poland Rachel Mamlok-Naaman , The Weizmann Institute of Science, Israel

David McGarvey, Keele University, UK Mansoor Niaz , Universidad de Oriente, Venezuela MaryKay Orgill , University of Nevada, Las Vegas, USA George Papageorgiou , Democritus University of Thrace, Greece Ilka Parchmann , University of Kiel, Germany Michael K. Seery , University of Edinburgh, UK

Keith Taber , University of Cambridge, UK Daniel Tan , Nanyang Technological University, Singapore

Zoltán Toth , University of Debrecen, Hungary

Georgios Tsaparlis , (Founding Editor), University of Ioannina, Greece

Jan H van Driel , The University of Melbourne, Australia

Mihye Won , Monash University, Australia

Lisa Clatworthy , Managing Editor

Helen Saxton , Editorial Production Manager

Becky Webb , Senior Publishing Editor

Laura Cooper , Publishing Editor

Hannah Dunckley , Publishing Editor

Natalie Ford , Publishing Assistant

Journal specific guidelines

The intended emphasis is on the process of learning, not on the content. Contributions describing alternative ways of presenting chemical information to students (including the description of new demonstrations or laboratory experiments or computer simulations or animations) are unlikely to be considered for publication. All contributions should be written in clear and concise English. Technical language should be kept to the absolute minimum required by accuracy. Authors are urged to pay particular attention to the way references are cited both in the text and in the bibliography.

The journal has three objectives.

First  to provide researchers a means to publish high quality, fully peer reviewed, educational research reports in the special domain of chemistry education. The studies reported should have all features of scholarship in chemistry education, that is they must be:

• original and previously unpublished
• theory based
• supported by empirical data
• of generalisable character.

The last requirement means that the studies should have an interest for and an impact on the global practice of chemistry, and not be simply of a regional character. Contributions must include a review of the research literature relevant to the topic, and state clearly the way(s) the study contributes to our knowledge base. Last but not least, they should conclude with implications for other research and/or the practice of chemistry teaching.

Second   to offer practitioners (teachers of chemistry at all levels) a place where they can share effective ideas and methods for the teaching and learning of chemistry and issues related to these, including assessment.

The emphasis is on effectiveness, the demonstration that the approach described is successful, possibly more so than the alternatives. Contributions are particularly welcome if the subject matter can be applied widely and is concerned with encouraging active, independent or cooperative learning.

Of special interest are methods that increase student motivation for learning, and those that help them to become effective exploiters of their chemical knowledge and understanding. It is highly desirable that such contributions should be demonstrably based, wherever possible, on established educational theory and results.

Third  to help to bridge the gap between educational researchers and practitioners by providing a single platform where both groups can publish high-quality papers with the realistic hope that researchers will find their results seen by those who could benefit from using them.

Also, practitioners will gain from encountering the ideas and results of those who have made a particular study of the learning process in finding better ways to improve their teaching and the learning experience of their students.  

Articles should be submitted using ScholarOne , the Royal Society of Chemistry's article review and submission system. A printed copy of the manuscript will not be required. Your submission will be acknowledged as soon as possible. 

Exceptions to normal Royal Society of Chemistry policy

Submissions to Chemistry Education Research and Practice do not require a table of contents entry. Submissions to the journal should use Harvard referencing.

Citations in the text should therefore be made by use of the surname of the author(s) and the year of the publication, at the appropriate place. Note that with one or two authors the name(s) are given, while if the source has three or more authors, it is cited with the first named author as 'Author et al. '

When more than one source is cited in the text, they should be listed in chronological and then alphabetical order for example, '(Jones, 2001; Smith, 2001; Adams, 2006)'. The references themselves are given at the end of the final printed text, in alphabetical and, if the same author is cited more than once, chronological order. An example of a journal article reference as it would be presented is Taber K. S., (2015), Advancing chemistry education as a field, Chem. Educ. Res. Pract. , 16 (1), 6–8.

Article types

Chemistry Education Research and Practice  publishes:

Perspectives

Review articles.

Perspectives are short readable articles covering current areas of interest. They may take the form of personal accounts of research or a critical analysis of activity in a specialist area. By their nature, they will not be comprehensive reviews of a field of chemistry. Since the readership of Chemistry Education Research and Practice is wide-ranging, the article should be easily comprehensible to a non-specialist in the field, whilst at the same time providing an authoritative discussion of the area concerned.

We welcome submissions of Perspective articles that:

• Communicate new challenges or visions for teaching chemistry framed in current chemistry education research or theories with evidence to support claims.
• Propose frameworks (theoretical, conceptual, curricular), models, pedagogies or practices informed by personal expertise and supported by research outcomes (either the author’s own research or the wider body of education research).
• Argue theoretical stances accompanied by recommendations for how these can be applied in teaching practice or measured in student conceptualisation of knowledge, with examples.

For more information on Perspective articles please see our 2022 Editorial (DOI: 10.1039/D2RP90006H )

These are normally invited by the Editorial Board and editorial office, although suggestions from readers for topics and authors of reviews are welcome.

Reviews must be high-quality, authoritative, state-of-the-art accounts of the selected research field. They should be timely and add to the existing literature, rather than duplicate existing articles, and should be of general interest to the journal's wide readership.

All Reviews and Perspectives undergo rigorous peer review, in the same way as regular research papers.

Review articles published in Chemistry Education Research and Practice include narrative, integrative or systematic reviews and meta-analyses and should align with the goals and scope of the journal.

Thought experiments outlining a theoretical position or personal opinion without including a literature basis, pedagogical recommendations or evidence of implementation are not considered in the journal.

For more information on preparing a review-style article please see our 2021 Editorial (DOI: 10.1039/D1RP90006D )

Full papers contain original scientific work that has not been published previously.

Comments and Replies are a medium for the discussion and exchange of scientific opinions between authors and readers concerning material published in Chemistry Education Research and Practice. 

For publication, a Comment should present an alternative analysis of and/or new insight into the previously published material. Any Reply should further the discussion presented in the original article and the Comment. Comments and Replies that contain any form of personal attack are not suitable for publication. 

Comments that are acceptable for publication will be forwarded to the authors of the work being discussed, and these authors will be given the opportunity to submit a Reply. The Comment and Reply will both be subject to rigorous peer review in consultation with the journal’s Editorial Board where appropriate. The Comment and Reply will be published together.

Readership information

Chemical education researchers and teachers of chemistry in universities and schools

Subscription information

Chemistry Education Research and Practice is free to access thanks to sponsorship by the Royal Society of Chemistry's Education Division

Online only : ISSN 1756-1108

*2023 Journal Citation Reports (Clarivate Analytics, 2024)

**The median time from submission to first decision including manuscripts rejected without peer review from the previous calendar year

***The median time from submission to first decision for peer-reviewed manuscripts from the previous calendar year

Advertisement

50+ Remarkable Chemistry Project Topics for BSC Students: Chemical Kinetics

• Post author By admin
• October 6, 2023

Explore a comprehensive list of chemistry project topics for BSC students. Enhance your knowledge and excel in your academic pursuits.

Welcome to the captivating world of chemistry! For Bachelor of Science (BSC) students, the journey through the diverse landscapes of chemical science is an exciting adventure.

Central to this journey are chemistry projects—opportunities for hands-on exploration, experimentation, and discovery.

Yet, the secret to a truly rewarding project lies in the choice of the right topic—one that not only aligns with academic goals but also stirs up genuine curiosity and enthusiasm.

In this article, we’re about to embark on an inspiring quest through a specially curated list of chemistry project topics, tailor-made for BSC students like you.

These topics promise not only to enhance your academic journey but also to kindle your passion for the captivating world of chemistry.

So, let’s dive in and explore the boundless possibilities and wonders that await in the realm of chemistry projects!

Table of Contents

What is Chemistry Project Topics ?

Chemistry, often dubbed the central science, has its fingerprints on virtually every facet of our lives. It’s the hidden force behind the scents we love, the reactions that fuel our cars, and even the medicines that keep us healthy.

Now, suppose this: BSC students are at the forefront of this captivating science, armed with a unique chance to dive headfirst into its various branches through project work.

These projects aren’t just your run-of-the-mill assignments; they’re like scientific adventures.

They do much more than boost your knowledge; they’re contributions to the grand tapestry of scientific discovery. So, imagine being part of this world, where you not only learn but also shape the future of chemistry!

The Importance of Choosing the Right Chemistry Project

Have a close look at the importance of choosing the right chemistry project:-

Personal Engagement

A well-suited project captures your interest and keeps you engaged throughout, making your academic journey more enjoyable.

It should align with your coursework and academic goals, ensuring that your efforts contribute meaningfully to your education.

Contribution

Choosing the right project means you’re not just benefiting yourself; you’re also adding to the body of scientific knowledge and benefiting the broader scientific community.

Skill Development

The right project challenges you, helping you acquire and refine valuable skills essential for your academic and professional growth.

When you’re passionate about your project, it transforms the work into a thrilling journey filled with curiosity, discovery, and enthusiasm.

In summary, the importance of selecting the right chemistry project goes beyond academics; it influences your engagement, relevance, contribution, skill development, and passion, enriching your scientific experience and personal growth.

Chemistry Project Topics for BSC Students

Here are Chemistry Project Topics for BSC Students:-

Organic Chemistry Projects

• Synthesis of Aspirin: Investigate the synthesis process, purity, and properties of this widely used pain reliever.
• Extraction of Natural Pigments: Explore the extraction of pigments from various plants and assess their applications in dyes and cosmetics.
• Analysis of Essential Oils: Analyze the chemical composition of essential oils from different sources and study their potential medicinal properties.
• Green Chemistry: Investigate environmentally friendly synthesis methods and processes in organic chemistry.
• Organic Synthesis of Pharmaceuticals: Design and synthesize organic compounds with potential pharmaceutical applications.
• Study of Aromatic Compounds: Explore the properties and reactions of aromatic compounds, such as benzene and its derivatives.
• Polymer Chemistry: Investigate the synthesis and properties of polymers, including their applications in various industries.
• Organic Chemistry of Natural Products: Analyze the chemical makeup of natural products like alkaloids, terpenes, and flavonoids.
• Organometallic Chemistry: Study the bonding and reactivity of compounds containing metal-carbon bonds.
• Organic Photochemistry: Explore the effects of light on organic compounds and their photochemical reactions.

Inorganic Chemistry Projects

• Synthesis of Metal Complexes: Investigate the preparation and characterization of metal complexes with ligands of varying structures.
• Coordination Chemistry: Explore the coordination behavior of transition metal ions with different ligands.
• Inorganic Synthesis of Nanoparticles: Synthesize and characterize metal or metal oxide nanoparticles with potential applications in catalysis or nanotechnology.
• Study of Lanthanides and Actinides: Investigate the properties and applications of lanthanide and actinide series elements.
• Inorganic Reaction Mechanisms: Analyze the reaction mechanisms of various inorganic reactions, such as redox reactions or ligand substitution reactions.
• Organometallic Synthesis: Study the synthesis and reactivity of organometallic compounds containing metal-carbon bonds.
• Bioinorganic Chemistry: Explore the role of metal ions in biological systems and their significance in biochemical processes.
• Main Group Chemistry: Investigate the chemistry of main group elements and their compounds.
• Inorganic Synthesis of Coordination Polymers: Synthesize and characterize coordination polymers with unique structures and properties.
• Supramolecular Chemistry: Study non-covalent interactions in inorganic chemistry, such as host-guest complexes and molecular recognition.

Physical Chemistry Projects

• Chemical Kinetics: Investigate the rate of chemical reactions under different conditions and analyze reaction mechanisms.
• Electrochemistry: Explore the principles of electrochemical cells, study electrode processes, and investigate applications in energy storage.
• Thermodynamics of Reactions: Study the thermodynamic parameters of chemical reactions, including enthalpy, entropy, and Gibbs free energy.
• Quantum Chemistry: Apply quantum mechanical principles to predict molecular structures and electronic properties of chemical compounds.
• Statistical Mechanics: Explore the statistical behavior of particles in systems, including the Boltzmann distribution and partition functions.
• Surface Chemistry: Investigate the physical and chemical properties of surfaces and interfaces, including adsorption and catalysis.
• Chemical Thermodynamics: Study the thermodynamic properties of chemical systems and phase equilibria.
• Spectroscopy and Molecular Structure: Analyze the interaction of matter with electromagnetic radiation and determine molecular structures.
• Chemical Equilibrium: Investigate chemical equilibrium and the factors that influence it in various chemical reactions.
• Photochemistry: Explore the effects of light on chemical reactions, including photochemical mechanisms and applications.

These diverse project topics encompass a wide range of subfields within chemistry, offering BSC students opportunities for hands-on exploration and research in their chosen area of interest.

How to Select the Ideal Chemistry Project Topic?

Selecting the ideal chemistry project topic is a crucial step that can significantly impact your academic journey and research experience. Here’s a guide on how to make the right choice:

Personal Interest

Start by considering your personal interests within the field of chemistry. What topics or areas intrigue you the most? Projects aligned with your passions are more likely to keep you motivated and engaged throughout.

Academic Alignment

Ensure that the chosen topic aligns with your coursework and academic goals. It should complement your studies and contribute to your overall understanding of chemistry.

Research Existing Knowledge

Before finalizing a topic, research existing literature and studies in that area. Understanding what has already been explored can help you identify gaps in knowledge or areas where further investigation is needed.

Consult with Professors

Seek guidance from your professors or mentors. They can provide valuable insights into potential project topics, offer suggestions, and help you refine your ideas.

Available Resources

Consider the resources available to you, including laboratory equipment, chemicals, and access to research materials. Ensure that your chosen project is feasible within your academic environment.

Scope and Complexity

Assess the scope and complexity of the project. It should be challenging enough to stimulate your intellectual growth but not so complex that it becomes unmanageable.

Relevance and Impact

Think about the broader relevance and potential impact of your project. How does it contribute to the field of chemistry or address real-world issues? Projects with practical applications or scientific significance can be particularly rewarding.

Feasibility

Evaluate the feasibility of your project in terms of time, budget, and available support. Ensure that you have a clear plan for conducting experiments and gathering data.

Ethical Considerations

Be aware of any ethical considerations related to your project, especially if it involves human subjects, animals, or hazardous materials. Ensure that your research adheres to ethical guidelines.

Flexibility

Keep some degree of flexibility in your project plan. Research may take unexpected turns, and being adaptable can help you navigate challenges and make the most of unexpected discoveries.

Passion and Curiosity

Choose a topic that genuinely excites your curiosity. A project driven by passion often leads to more enthusiastic and successful research.

Peer Feedback

Discuss your ideas with peers or fellow students. Their perspectives and feedback can offer valuable insights and help you refine your project concept.

By carefully considering these factors and conducting thorough research, you can select an ideal chemistry project topic that not only aligns with your interests and academic goals but also offers a rewarding and enriching research experience.

Tips for Successful Project Execution

Have a close look at the tips for successful project execution:-

Detailed Planning

Start with a well-structured project plan. Define your objectives, set clear goals, and create a timeline outlining each phase of your project.

Research Extensively

Before conducting experiments, thoroughly research the relevant literature to understand existing knowledge and methodologies related to your topic.

Prioritize safety at all times. Familiarize yourself with safety protocols, wear appropriate protective gear, and handle chemicals and equipment with care.

Experimental Design

Design your experiments carefully, considering variables, controls, and potential sources of error. Consult with professors or advisors for input on your experimental setup.

Data Collection

Maintain accurate and organized records of your experiments, including measurements, observations, and any unexpected results.

Analytical Tools

Utilize appropriate analytical tools and techniques for data analysis. This may involve statistical analysis, spectroscopy, chromatography, or other methods depending on your project.

Troubleshooting

Be prepared to encounter challenges during experiments. Develop problem-solving skills and seek guidance from mentors or colleagues when needed.

Regular Updates

Keep your professors or advisors informed of your progress. Regular meetings can provide valuable feedback and help you stay on track.

Documentation

Create a detailed laboratory notebook or digital records that document your procedures, results, and any modifications made during the project.

Data Interpretation

Analyze your data critically and draw meaningful conclusions. Discuss your findings with mentors and peers to gain different perspectives.

Adaptability

Be flexible in your approach. If your initial experiments do not yield the expected results, be open to adjusting your methods or hypotheses.

Time Management

Manage your time effectively to meet project milestones and deadlines. Avoid procrastination and allocate sufficient time for analysis and report writing.

Communication Skills

Develop strong communication skills to convey your research findings clearly and effectively, both in written reports and oral presentations.

Collaboration

Collaborate with colleagues or fellow students when applicable. Sharing ideas and resources can enhance the quality of your research.

Continuous Learning

Stay updated with the latest developments in your field through scientific journals, conferences, and discussions with experts.

Ethical Conduct

Adhere to ethical guidelines and principles in your research. Ensure that your work is conducted with integrity and honesty.

Feedback Incorporation

Embrace constructive feedback from mentors, peers, or reviewers, and use it to improve your project and research skills.

Celebrate Milestones

Acknowledge and celebrate your achievements and milestones throughout the project. It can boost motivation and morale.

Stay Organized

Maintain a well-organized workspace and records. A tidy and systematic approach can save time and prevent errors.

Reflect and Learn

After completing your project, reflect on your experiences and lessons learned. Consider how you can apply these insights to future research endeavors.

By following these tips and maintaining a dedicated and systematic approach, you can enhance the chances of successful project execution in the field of chemistry.

Benefits of Chemistry Projects for BSC Students

Certainly, here are the benefits of chemistry projects for BSC (Bachelor of Science) students:

Hands-On Experience

Chemistry projects provide students with practical, hands-on experience in conducting experiments, handling chemicals, and using laboratory equipment. This experience is invaluable for future careers in science.

Deeper Understanding

Engaging in research projects allows students to delve deeper into specific areas of chemistry, gaining a more profound understanding of concepts and theories.

Problem-Solving Skills

Projects often involve troubleshooting and problem-solving, honing students’ critical thinking and analytical skills . They learn to overcome challenges and adapt their approaches.

BSC students acquire a wide range of laboratory and research skills, including data collection, analysis, and interpretation. These skills are transferable and valuable in various scientific fields.

Research Ethics

Students learn about research ethics, including responsible conduct and the importance of integrity in scientific inquiry.

Scientific Method

Projects follow the scientific method, teaching students how to formulate hypotheses, design experiments, and draw conclusions based on evidence.

Encouragement to explore unique topics fosters creativity and innovation. Students may discover new approaches or solutions to existing problems.

Interdisciplinary Learning

Chemistry projects often intersect with other scientific disciplines, providing opportunities for interdisciplinary learning and collaboration.

Publication and Presentation

Successful projects can lead to publications or presentations at conferences, enhancing students’ academic and professional portfolios.

Career Preparation

The skills and experiences gained from chemistry projects prepare students for careers in research, academia, industry, or healthcare.

Increased Confidence

Completing a project independently or as part of a team boosts students’ confidence in their abilities to tackle complex scientific challenges.

Projects often involve interaction with professors, mentors, and peers, helping students build a professional network within the scientific community.

Resume Enhancement

A well-executed project can serve as a strong addition to a student’s resume or graduate school application, setting them apart from their peers.

Real-World Applications

Many chemistry projects have real-world applications, allowing students to see the practical relevance of their studies.

Contributions to Knowledge

Students may make meaningful contributions to the field of chemistry by generating new data, theories, or insights.

Personal Fulfillment

Successfully completing a challenging project can provide a sense of personal fulfillment and accomplishment.

Preparation for Advanced Degrees

For those considering postgraduate studies, chemistry projects provide valuable research experience and strengthen applications for advanced degrees.

Critical Evaluation

Students learn to critically evaluate existing literature and research, improving their ability to assess scientific claims and findings.

Teamwork and Leadership

Collaborative projects enhance teamwork and leadership skills, important attributes for any career path.

Life-Long Learning: Engaging in research projects fosters a love for learning and encourages students to continue exploring and discovering throughout their careers.

What is the best topic for chemistry project?

Selecting the right chemistry project topic is crucial for a successful project. The ideal topic should align with your interests, offer access to ample research materials, and be suitable for your skill level and experience.

Here are some ideas to consider for chemistry projects:

Chemical Composition Analysis

Investigate the chemical composition of a commonly used household product. This can provide insights into the ingredients and their properties.

Factors Affecting Chemical Reactions

Explore how various factors, such as temperature or pH levels, impact a chemical reaction. This research can reveal the variables influencing reaction outcomes.

Innovative Compound Synthesis

Develop a novel method for synthesizing a chemical compound. This project offers an opportunity to innovate and create something new.

Material Properties Study

Study the properties of a recently discovered material. This can involve characterizing its physical, chemical, and structural attributes.

Experimental Hypothesis Testing

Design and conduct an experiment to test a scientific hypothesis related to chemistry. This approach allows you to apply the scientific method.

If you find yourself unsure about the right topic, consider seeking suggestions from your teacher or browsing the internet for a wealth of chemistry project ideas.

Remember, the key is to choose a topic that sparks your curiosity and aligns with your abilities, ensuring a rewarding and successful project.

What are hot topics in chemistry?

In the realm of chemistry, 2023 brings forth some scintillating and cutting-edge areas of research:

Sustainable Chemistry

With a laser focus on eco-friendliness, sustainable chemistry aims to birth cleaner chemical processes and products. Think novel catalysts for green energy, inventive techniques for recycling and waste reduction, and biodegradable, non-toxic materials.

Materials Science

This arena is all about crafting and scrutinizing new materials, from polymers to metals, ceramics, and composites. Researchers are fashioning materials for advanced batteries, solar cells, medical devices, and robust, lightweight structural applications.

Biochemistry

At the intersection of chemistry and life itself, biochemistry explores the intricate chemistry of living organisms.

Dive into the study of proteins and enzymes, the development of groundbreaking drugs and therapies, and the engineering of microorganisms to yield valuable products.

Quantum Chemistry

The captivating fusion of quantum mechanics and chemistry gives birth to groundbreaking methods for simulating and predicting molecular properties. Think about the design and synthesis of new materials and the rise of quantum computing.

Artificial Intelligence (AI)

AI’s infusion into the chemistry landscape is revolutionary. It’s shaping the development of next-gen drugs that are both potent and gentle, as well as the creation of robust, lightweight materials.

Moreover, AI is predicting chemical reaction outcomes, optimizing processes, and pushing the boundaries of innovation.

These are just a glimpse into the dynamic world of chemistry research in 2023. It’s a vast and swiftly evolving domain, teeming with opportunities for groundbreaking discoveries and scientific progress.

What is an example of a chemistry topic?

A chemistry topic worth exploring is the impact of temperature on chemical reaction rates. This intriguing area can be probed through experimentation.

Imagine having two identical sets of reactants, each subjected to different temperatures, with the reaction rate meticulously measured at each temperature point.

The data collected can then be plotted on a graph, revealing the relationship between reaction rate and temperature.

This graphical representation can unveil critical insights, including the activation energy of the reaction and how the reaction rate fluctuates at varying temperatures.

Another captivating chemistry topic involves the synthesis of aspirin, a widely used pain reliever. Aspirin can be created through the reaction of acetic anhydride and salicylic acid.

Delving into this process entails carefully combining the two reactants in precise proportions and subjecting them to specific conditions.

The resulting product can then undergo purification and rigorous analysis to ascertain its purity and identity.

These examples merely scratch the surface of the diverse world of chemistry topics. The field encompasses an array of areas ripe for exploration, such as:

• Unraveling the mysteries of matter’s structure and properties.
• Exploring the intricacies of chemical bonding.
• Unearthing the mechanisms behind chemical reactions.
• Probing the fascinating realms of thermodynamics and kinetics.
• Delving into the electrifying world of electrochemistry.
• Mastering the art of analytical chemistry.
• Navigating the intricate pathways of organic and inorganic chemistry.
• Investigating the physical forces that drive chemical phenomena.
• Exploring the chemistry of life itself through biochemistry.

The specific chemistry topic you choose to explore should align with your interests and objectives. If you’re keen on delving deeper into a particular facet of chemistry, consider perusing research papers, articles, and discussions on the subject.

Engaging with your teacher or a knowledgeable chemistry professor can also provide valuable guidance and suggestions.

Which is the best project in MSC chemistry?

Selecting the perfect M.Sc. chemistry project is a crucial step in your academic journey. It should both captivate your interest and pose a satisfying challenge.

Equally important is the feasibility of completing the project within the confines of your program’s time constraints.

Consider these ideas for M.Sc. chemistry projects:

Embark on the creation of a groundbreaking method for synthesizing a chemical compound, pushing the boundaries of chemical innovation.

Material Exploration

Dive into the study of a novel material’s properties, shedding light on its characteristics and potential applications.

Design and execute experiments aimed at testing scientific hypotheses, employing meticulous methods and precise data analysis.

Factors Shaping Reactions

Investigate the intricate dance of different factors, such as temperature or pH levels, on the outcomes of chemical reactions, revealing the secrets of chemical kinetics.

Complex Sample Analysis

Analyze the intricate chemical composition of complex samples like plant extracts or biological fluids, offering insights into the mysteries of nature.

Analytical Advancements

Pave the way for cutting-edge analytical methods capable of detecting or quantifying specific chemical compounds with precision.

Therapeutic Innovation

Design and synthesize a new pharmaceutical or therapeutic agent, potentially impacting healthcare and medicine.

Molecular Insights

Delve deep into the molecular mechanisms underlying biological processes like photosynthesis or cell signaling, unraveling nature’s secrets.

Computational Chemistry

Forge new frontiers in computational chemistry by developing methods to predict the properties of molecules or materials.

Environmental Impact Assessment

Scrutinize the environmental consequences of chemicals or chemical processes, contributing to sustainability efforts.

Champion sustainability by crafting novel chemical processes or products that are gentle on the planet.

If you find yourself uncertain about the ideal topic, engage in discussions with your advisor or other seasoned professors within your department.

They possess valuable insights and can help pinpoint a project that aligns seamlessly with your interests and expertise.

Once you’ve chosen your focus, meticulously craft a research plan. Outline your research question, delineate the research methods, establish a timeline for completion, and identify necessary resources, including equipment, materials, and potential funding.

With your advisor’s approval, embark on your project, keeping detailed records of your work and maintaining regular communication with your mentor.

Upon project completion, compile your findings into a comprehensive thesis or dissertation. Additionally, consider presenting your research at seminars or conferences, sharing your discoveries with the scientific community.

Undertaking an M.Sc. chemistry project is a formidable yet gratifying endeavor. It’s an opportunity to cultivate new skills, conduct independent research, and contribute meaningfully to the realm of chemistry.

In wrapping up, the world of chemistry is like an endless playground for BSC students, filled with intriguing possibilities waiting to be explored.

Think of it as your chance to embark on a captivating adventure where every project is a new chapter in your scientific journey.

Choosing the right topic is your compass, guiding you toward a project that not only aligns with your interests but also fuels your academic ambitions. Remember, it’s not just an academic checkbox; it’s your gateway to an exhilarating exploration.

As you dive into your chosen project, consider it a rendezvous with curiosity, a chance to develop invaluable skills, and an opportunity to contribute your unique brushstroke to the canvas of scientific knowledge.

Throughout this adventure, you’ll navigate the twists and turns of experimentation, data analysis, and the thrill of discovery. Your dedication and inquisitiveness will be your trusty companions on this scientific quest.

In the grand scheme of things, every chemistry project is a stepping stone towards a deeper comprehension of the marvelous world of molecules and reactions.

It’s your invitation to join a community of scientists, explorers of the unknown, and seekers of truth.

So, as you venture forth into your chemistry project as a BSC student, do so with a heart full of excitement and a mind buzzing with questions.

Your journey promises not only academic growth but also the potential to make your mark on the ever-evolving landscape of scientific understanding. Enjoy the ride!

Frequently Asked Questions

How do i choose the best chemistry project topic for me.

Consider your interests, available resources, and relevance to your coursework.

Can I collaborate with professors on a project?

Yes, collaborating with professors can provide valuable guidance and resources.

What are the key skills I can gain from a chemistry project?

Skills include research, experimentation, data analysis, and critical thinking.

Are there any online resources for chemistry project ideas?

Yes, various websites and academic journals offer project ideas.

Where can I find more information on project execution and methodology?

University libraries and online databases are excellent sources for project guidance.

• australia (2)
• duolingo (13)
• Education (284)
• General (78)
• How To (18)
• IELTS (127)
• Latest Updates (162)
• Malta Visa (6)
• Permanent residency (1)
• Programming (31)
• Scholarship (1)
• Sponsored (4)
• Study Abroad (187)
• Technology (12)
• work permit (8)

Recent Posts

Chemistry Education Project Topics PDF Materials for Students

Access 359 Chemistry Education Project Topics PDF Research Materials for Chemistry Education Students

Best Project Topics in Chemistry Education

Here is the List of 359 Best Chemistry Education Research Project Topics and Materials for (Final Year and Undergraduate) Chemistry Education Students in Nigeria & other English Speaking Countries:

Phytochemical Analysis And The Anti- Inflammatory Activities Of Dichloromethane Fraction Of Methanol Extract Of Crateva Adansonii.

Formulation and production of levera soap., effect of unemployment among youths undergraduate. a case study of escet nigeria, strategies for reducing mass failure of students in chemistry in secondary schools. in makurdi metropolis in benue state, perception of chemistry teachers and students on the availability and utilization of laboratory equipment in teaching and learning of chemistry., extent of integration of practicals into teaching of chemistry. a case study of senior secondary schools in enugu south l.g.a. of enugu state, comparative study of student performance in waec biology, chemistry and english. case study of enugu north lga, impact of laboratory practical on senior secondary school student academic achievement in biology, chemistry and mathematics. case study of ss2 in enugu north lga, impact of laboratory practical on senior secondary school student academic achievement in ss2 biology, chemistry and mathematics. a case study of enugu north lga of enugu state, efforts of lectures and demonstration methods on teaching and learning secondary school chemistry. a case study of selected secondary schools in enugu urban, construction of propeller agitator., the steam boiler., construction of a wooden book shelf., construction of an open steam distillation column., construction of water storage tank (2000 litters)., assessment of the phytochemical constituents and proximate composition of african peer., serum sodium concentration in sickle cell patient., determination of prion protein (prp) and changes in fertility hormones with sleep deprivation in albino rats., analysis of heavy metals in five different baby foods., factors responsible for mass failure of student in chemistry in some selected secondary schools., effect of demonstrative methods on chemistry students’ understanding of titration concepts. (a case study in onna local government area), effect of flipped classroom approach and secondary school students academic achievement in esterification in organic chemistry., genetic and non genetic factors affecting serum biochemical parameters in nigerian sheep., effect of problem-based learning on self efficacy, academic performance and retention in secondary school chemistry., students attitude towards laboratory work and its impact on academic performance in chemistry. a case study of oredo local government area of edo state, evaluation of nutritive profile of a vegetable, piper methysticum, locally known as awa using atomic absorption spectroscopy., influence of social media on the academic achievement of chemistry student in universities in benue state., levels of polycyclic aromatic hydrocarbon in fresh water fish dried under different drying regimes., application of environmental management systems in a soap production plant., isolation and identification of escherichia coli as an indicator of faecal pollution in streams on obafemi awolowo university (o.a.u) campus, ile-ife, osun state., effect of banditry activities on the performance of students in english language among senior secondary school students. in sokoto state, preliminary investigation on effects of burantashi extract on liver enzymes of albino male nd female whistar rats., studies on the impact resistance of cashew nutshell powder and calcium carbonate filled polypropylene., analysis of 3-mercaptopyruvate sulfurtransferase (3-mst)., effects of alcohol on some biochemical parameters of alcoholics., interactive and experiential teaching strategies on student academic performance in chemistry., effect of class size and availability of laboratory facility of student performance in chemistry., effect of anti histamine on acute inflammation., effects of ethanol, methanol and n-hexane leaf and fruit extracts of kigelia africana on some oxidative and biochemical parameters in alloxan-induced diabetic rats., synthesis characterization and antimicrobial activity of bis (salicyaldehyde thiosemicarbazone) cobalt (ii) chloride., impact of instructional resources and materials in the teaching of chemistry in secondary schools., effect of thermal treatment on physical and chemical properties of recycled polypropylene., investigation into ethno medicinal claims on the aerial parts of alchornea cordifolia., problem solving learning strategy and students’ academic performance in stoichiometry in chemistry., critical examination of the use of predictive validity of utme scores in determining the academic performance of fresh undergraduates in chemistry., production of biodegrable plastic films from cassava starch used in food packaging, using various additives and plasticizers., evaluation and update of guinea worm (dracunculus medinensis) as an endemic parasitic organism in nigeria., development and mass production of chemical synthesized drugs have revolutionized healthcare in most part of the world., african walnut or tetracarpidiumconophorum., effects of delays and disruption on the cost of building construction projects in nigeria (a case study of enugu state). a case study of enugu state in nigeria.

Downloadable Chemistry Education Project Topics and PDF/DOC Materials END HERE. NOTE: Below are Chemistry Education Research Areas that students & researchers can develop independently .

• Introduction to Chemistry Education: Explore the significance of chemistry education in fostering scientific literacy and its impact on society.
• Curriculum Development in Chemistry Education: Investigate the design and implementation of effective chemistry curricula for different educational levels.
• Innovative Teaching Strategies in Chemistry: Examine modern and engaging methods for teaching chemistry, including the integration of technology and hands-on activities.
• Assessment Methods in Chemistry Education: Analyze various assessment tools and techniques used to evaluate students’ understanding of chemistry concepts.
• Chemistry Laboratories and Practical Work: Explore the role of laboratory work in chemistry education, focusing on safety, equipment, and experimental design.
• Teacher Training and Professional Development in Chemistry: Investigate programs and strategies for enhancing the knowledge and skills of chemistry educators.
• Gender Disparities in Chemistry Education: Examine factors contributing to gender imbalances in chemistry classrooms and propose solutions to promote inclusivity.
• The Use of Multimedia in Chemistry Teaching: Assess the effectiveness of multimedia resources in enhancing students’ comprehension of complex chemical concepts.
• Chemistry Education for Sustainable Development: Explore how chemistry education can contribute to fostering sustainable practices and environmental awareness.
• Integration of Green Chemistry in Education: Examine the incorporation of green chemistry principles into educational curricula for a more sustainable and eco-friendly approach.
• History and Philosophy of Chemistry Education: Investigate the historical development and philosophical underpinnings of chemistry education.
• Chemistry and Interdisciplinary Education: Explore ways to integrate chemistry with other disciplines, promoting a holistic approach to education.
• Challenges in Chemistry Education: Identify common challenges faced by educators and students in the field of chemistry and propose solutions.
• Chemistry Education in Developing Countries: Assess the status of chemistry education in developing nations, considering resources, infrastructure, and access.
• Role of Educational Technology in Chemistry: Explore the use of digital tools, simulations, and virtual laboratories in enhancing chemistry education.
• Chemistry Education and Industry Collaboration: Examine partnerships between educational institutions and industries to bridge the gap between academia and real-world applications.
• Cultural Considerations in Chemistry Education: Investigate how cultural diversity influences chemistry education and propose culturally sensitive teaching approaches.
• Chemistry and Health Education: Explore the intersection of chemistry and health education, emphasizing the role of chemistry in medical advancements.
• Chemistry Competitions and Olympiads: Analyze the impact of chemistry competitions on student motivation and academic achievement.
• Chemistry Education and Public Outreach: Explore strategies for promoting public awareness and understanding of chemistry through outreach programs.
• Chemistry Teacher-Student Relationships: Investigate the influence of teacher-student relationships on learning outcomes in chemistry education.
• Chemistry Education and Educational Policy: Analyze the role of governmental policies in shaping the landscape of chemistry education at various levels.
• The Use of Demonstrations in Chemistry Teaching: Explore the effectiveness of live demonstrations in capturing students’ interest and enhancing understanding.
• Ethics in Chemistry Education: Examine ethical considerations in teaching and researching chemistry, addressing issues related to academic integrity.
• Chemistry Education for Special Needs Students: Investigate tailored approaches and accommodations to make chemistry education accessible for students with special needs.
• Chemistry and Social Justice: Explore the intersection of chemistry education and social justice, addressing issues of equity and inclusivity.
• Global Perspectives in Chemistry Education: Analyze the similarities and differences in chemistry education across different countries and regions.
• Chemistry Education and Career Guidance: Explore the role of education in guiding students towards diverse career paths within the field of chemistry.
• Chemistry Education and Critical Thinking: Investigate strategies to enhance students’ critical thinking skills through chemistry education.
• Chemistry Education and Informal Learning: Explore the impact of informal learning environments, such as science museums and outreach programs, on chemistry education.
• Chemistry Education and Educational Psychology: Analyze psychological factors influencing students’ motivation, engagement, and learning outcomes in chemistry.
• Online Chemistry Education: Examine the challenges and opportunities associated with online learning in the field of chemistry.
• Chemistry Education and Sustainable Development Goals: Investigate how chemistry education aligns with and contributes to achieving global sustainable development goals.
• Teacher-Parent Collaboration in Chemistry Education: Explore the importance of collaboration between teachers and parents in supporting students’ learning experiences in chemistry.
• Future Trends in Chemistry Education: Discuss emerging trends, innovations, and potential future directions in the field of chemistry education.

This website uses cookies to improve your user experience. By continuing to use the site, you are accepting our use of cookies. Read the ACS privacy policy.

• ACS Publications

10 Hot Topics in Chemistry So Far in 2023

• Apr 25, 2023

Here, we bring you a selection of hot topics published in ACS journals so far this year, spanning a wide range of subject areas from authors around the world. From algae to wearable devices, this collection features fascinating innovations for everyone to enjoy.

Tobacco: Chemistry, Mechanisms, and Disease Prevention

50 years ago, scientists first identified N ′-nitrosonornicotine, the tobacco-specific carcinogen found in both cigarette smoke and smokeless tobacco products. The tobacco industry has evolved tremendously since then, but there is still much to be understood about the root causes of certain cancers associated with prolonged tobacco use. Additionally, the rise of e-cigarettes and other tobacco-free products presents a need for further investigations into the potential toxicity of and damage from various vaping mechanisms. This collection of papers from Chemical Research in Toxicology highlights key advances across a broad array of topics on tobacco products, e-cigarettes, disease prevention, and more.

Special Issue: Tobacco - Chemistry, Mechanisms, Biomarkers and Disease Prevention

All about algae.

Chemists Celebrate Earth Week (CCEW) is a community-based program of ACS. This year, CCEW’s theme was “The Curious Chemistry of Amazing Algae.” These amazing organisms are emerging as a potential sustainable source of food and biofuels, as well as bioplastics and other co-products. Part of the attraction is that they exist in large numbers, and they have a variety of characteristics depending on where and how they grow. Critically, algae have evolved to produce and store energy—a skill which they perform more efficiently than any other known natural or engineered process. This Virtual Issue brings together articles from 20 different journals, covering a variety of topics such as algal uses in hydrogels, wastewater treatment, bioplastics, fuel production, and batteries—as well as ways to control harmful algal blooms in the wild.

Chemists Celebrate Earth Week: The Curious Chemistry of Amazing Algae

Gaining insight into parkinson’s disease.

World Parkinson’s Day is held each year on April 11 to raise awareness of this progressive neurological disease, which affects approximately 1% of people aged 65 and older and 4–5% of those over the age of 85. But due to its complex etiology, the underlying pathogenesis of Parkinson’s is not fully understood. As such, there remains a desperate need for research into both causes and possible cures. A recent collection of articles highlights significant contributions reported in ACS journals. In addition to various pharmaceutical options being explored, research is also underway to improve the performance of sensors and develop new protocols for detecting neurotransmitters, which could help speed diagnosis and support monitoring.

World Parkinson’s Day

A second skin: the world of wearables.

The idea of sensors for health detecting naturally takes us to wearables. Wearables go far beyond fitness trackers, with devices now including patches, tattoos, fabrics, and contact lenses. The embedded technology spans multiple disciplines, which together are redefining what can be done with wearable sensors. ACS Sensors brings together 29 publications that showcase the interdisciplinary nature of this exciting field, bringing together engineering, materials, spectroscopy, data science, physics, medicine, and more—which could pave the way for dramatic advances in both health diagnosis and monitoring.

Lessons Learned: Post-Pandemic Teaching Strategies

In 2020, the Journal of Chemical Education published a Special Issue around educational insights gained during the COVID-19 pandemic. Now, in 2023, this new Virtual Special Issue on the same topic in the time after COVID offers more data-driven assessments of changes made in the chemistry education community as a result of the pandemic. Widespread lockdowns forced people to find novel solutions in many spheres of life, including redefining “the classroom.” Educators used a variety of platforms to share remote learning, and hybrid teaching environments evolved into the new normal. This collection looks at teaching innovations and student learning in the field of chemistry, showcasing how the pandemic has shaped new ways of working—from remote laboratory methods to student engagement and technical tools.

Teaching Changes and Insights Gained in the Time after COVID-19

Hot articles in inorganic/organic chemistry.

Look, it’s a hot topics collection within a hot topics collection! This next list includes 58 Editors' Choice articles spanning ACS Publications’ core organic and inorganic journals. These editor-curated articles showcase innovative thinking in a variety of areas, including synthetic methodology, coordination, main-group chemistry, catalysis, energy research, medical science, and theoretical and computational chemistry. The ACS Editors' Choice designation is designed to highlight important new findings, which are free to read for a limited time.

Hot Articles from the ACS Organic/Inorganic Journal Portfolio: 2022 Editors' Choice

Research excellence from latin america.

Join us now as we take you on a brief world tour of cutting-edge work from three key geographic regions. First, let’s take a closer look at research from Latin America . Over the past 100 years, ACS has published more than 26,000 articles from Latin American scientists spanning almost all fields of chemistry—and discovery and innovation in Latin America continues to thrive today. This Virtual Issue from ACS Omega is fully open access and features 35 papers on key frontier topics.

Excellence in Agricultural Research from India

Next, we travel to India, where another Virtual Issue from ACS Agricultural Science & Technology  and  Journal of Agricultural and Food Chemistry highlights regional contributions to the boundaries of agricultural research. Topics covered include plant science and biotechnology, crop protection, sustainable agriculture, and precision farming—as well as less obvious disciplines such as nanomaterials, which could play a role in making agriculture more sustainable.

Highlighting Excellence in Agricultural Research from India

Emerging trends in molecular pharmaceutics across australasia.

The third and final stop on our world tour is Australasia , with a collection of exciting research on emerging trends in the pharmaceutical sciences. The papers, all published in Molecular Pharmaceutics , highlight the high-quality work led by researchers in both academia and industry across Australia and New Zealand. This includes a wide range of advanced drug delivery research areas, including nanotechnology, biomaterials, biodegradable polymers, and drug targeting. This collection presents novel innovations with the potential to translate into new treatment paradigms and options for people around the globe.

Mastering the Art of Scientific Publication (Part 2)

And finally, for anyone wanting to get their own work published (and perhaps find it included in a future Virtual Issue), we draw your attention to a collection of recent editorials that offer tips and best practices for composing a well-balanced scientific article, preparing an effective manuscript, and increasing your likelihood of getting your work accepted for publication. Just getting started? Be sure to check out Part 1 as well.

Mastering the Art of Scientific Publication − Part II

Want the latest stories delivered to your inbox each month.

• Email [email protected]
• Call Us (+234) 08142863125 (+234) 08175212731

CHEMISTRY EDUCATION PROJECT TOPICS AND RESEARCH MATERIALS

1. production of liquid and vaporized perfume, » chapter one introduction the word perfumes take its name form the latin word perfumery (to fill with smoke) since in its original form, it was incense burner in egyptian temple early it was found in a mixture of finely ground spices help together by mgrrh or storax. it occur in certain spices and flowers were steeped in fat or oil, the fat or oil would retain a portion of the odoriferous principle... continue reading ».

50 pages |  1,520 engagements | 

2. THE REFURBISHMENT OF TEMPERATURE CONTROL APPARATUS

» chapter oneintroduction 1.1 background of the study armfield temperature control appara [tus is a pilot plant scale apparatus for the study of heat transfer, process control fluid mechanism and thermodynamics by chemical engineering students in various institutions of higher learning. the apparatus consists of two heaters, with voltage between 220 240 and 6kw of power. the heaters has thermostatic... continue reading ».

50 pages |  925 engagements | 

3. EVALUATION OF THE POSSIBLE MUTAGENIC EFFECT OF NATURAL OIL ON THE CHEMICAL COMPO...

» chapter one introduction maize belongs to the grass family of plants and its botanical name is zea mays. it originated in south america and central america, but its cultivation has today spread to nearly all parts of the world. it is grown through out the tropics and temperature region. (onwueme, 1979). maize was introduced to west africa by the portuguese in the 16th century. it is a cercal crop ... continue reading ».

50 pages |  1,163 engagements | 

4. DESIGN AND SIMULATION OF AUTHENTICATION AND ADAPTIVE SECURITY FOR DNS SYSTEM

» chapter one introduction 1.1 background of the study the domain name system (dns) is a hierarchical decentralized naming system for computers, services, or other resources connected to the internet or a private network. it associates various information with domain names assigned to each of the participating entities. most prominently, it translates more readily memorized domain names to the numer... continue reading ».

76 pages |  972 engagements | 

5. EVALUATION OF CALCIUM IN CHEESE FOR RECOMMENDED DIETARY ALLOWANCE

» abstract cheese, a popular food across many cultures has been subject of many studies. it’s of many variants, providing huge nutritional value to humans. one of those many nutrients is calcium. calcium helps the body in building bone structures amongst other important functions. in this study, we aimed at determining the proportion of calcium content in cheese. thus, recommending a daily int... continue reading ».

75 pages |  1,690 engagements | 

6. THE EFFECT OF INSTRUCTIONAL STRATEGY IN INCORPORATING LOCAL PRACTICES ON SECON...

» chemistry is the branch of science that deals with the study of the structure and composition of matter. chemistry has often being described as the central science, being that effective study of chemistry lays a solid foundation for the scientific and technological development of an early learner in the sciences. oriaifo (2002) while stressing the importance of chemistry education noted that chemi... continue reading ».

75 pages |  3,764 engagements | 

7. AN ASSESSMENT OF TEACHERS’ KNOWLEDGE OF TEST CONSTRUCTION PROCEDURE IN CHEMI...

» testing has always been an integral part of the educational system since its inception. the concept (testing) can be viewed as a set of tasks presented to a person, the performance of which depends on the possession of a particular body of knowledge and skill. the emphasis being laid on continuous assessment in nigeria’s educational system has therefore given a boost to the testing system in... continue reading ».

75 pages |  4,151 engagements | 

• International
• Education Jobs
• Schools directory
• Resources Education Jobs Schools directory News Search

Chemistry Science Research Project Templates + Articles #21-30 Bundle

Last updated

20 July 2024

• Share through email
• Share through twitter
• Share through linkedin
• Share through facebook
• Share through pinterest

Resources included (20)

Acids and Bases | Science Research Project Template #22 | Chemistry | Chemical Science

Acids & Bases Science Article #22 | Science Reading / Literacy

Metals | Science Research Project Template #23 | Chemistry | Chemical Science

Metals Science Article #23 | Science Reading / Literacy

Alkanes, Alkenes & Alkynes | Science Research Project Template #24 | Chemistry | Chemical Science

Alkanes, Alkenes & Alkynes Science Article #24 | Science Reading / Literacy

States of Matter | Science Research Project Template #25 | Chemistry | Chemical Science

States of Matter Science Article #25 | Science Reading / Literacy

Endo- & Exothermic Reactions | Science Research Project Template #26 | Chemistry | Chemical Science

Endo- & Exothermic Reactions Science Article #26 | Science Reading / Literacy

Bonding Types | Science Research Project Template #27 | Chemistry | Chemical Science

Bonding Types Science Article #27 | Science Reading / Literacy

Redox Reactions | Science Research Project Template #28 | Chemistry | Chemical Science

Redox Reactions Science Article #28 | Science Reading / Literacy

Catalysts | Science Research Project Template #29 | Chemistry | Chemical Science

Catalysts Science Article #29 | Science Reading / Literacy

Fertilizer & Ammonia | Science Research Project Template #30 | Chemistry | Chemical Science

Fertilizer & Ammonia Science Article #30 | Science Reading / Literacy

The Periodic Table | Science Research Project Template #21 | Chemistry | Chemical Science

The Periodic Table Science Article #21 | Science Reading / Literacy

From catalysts to endo- & exothermic reactions. From fertilizers & ammonia to redox reactions and bonding types. This bundle has you covered and helps students develop research skills with a STEM connection and critical thinking prompts through thought provoking questions.

This research project template provides the perfect grab and go, print and provide resource that can supplement lessons. It is an project template with questions to check comprehension and inspire scientific thinking. It gives a rich and supportive framework that can be tweaked as needed for students to support differentiation.

Each research project template includes space for a one paragraph summary (that may or may not link to the 2 page science article also available on this topic). Students should produce a mathematical connection, an engineering / technology connection, 2 interesting facts / stats. Further there are 5 glossary terms they should fill in with their own words and 3 thought provoking questions (ie: critical thinking questions) they must answer. Finally, each template has 3 alternative thought provoking questions for younger students and 3 other alternative harder questions to extend high flying or older students. Giving you a total of 9 possible thought provoking questions that could be used with students to enhance their research and critical thinking.

This template is some of my best work and I am proud to share it with you.

The science article provides the perfect grab and go, print and provide resource that can supplement lessons. It is an article with questions to check comprehension and inspire scientific thinking. I am very proud of this series of science articles and they are rich with information and wonder at the majesty of science. Each science article includes a fun fact(s) to add to the knowledge gained from this article. Formatted in an easy to read and digest manner, each paragraph is numbered to help with referencing and each question answer has a paragraph reference number to point to the specific information (where applicable).

WHY / WHEN TO USE:

• Useful for substitute (sub) teaching
• To extend students
• To increase scientific literacy and research skills in your class
• Great as a lesson filler when class goes too fast and you need a long running task
• To inspire students on a particular topic
• As a scaffold to support students who need support on research skills and can use a framework
• To enhance critical thinking when doing research and making a relevant and interesting output
• Give a selection of these research project templates for students to choose from
• To enhance students ability to express ideas and synthesis knowledge

WHAT’S INCLUDED:

Research Project Templates

• 10 - 5 page Word doc teacher version with supporting appendix items
• 10 - 3 page Word doc student version with room to fill in answers (text boxes)
• 10 - 5 page PDF teacher version with supporting appendix items
• 10 - 3 page PDF student version with space to fill in answers

Science Article

• 10 - 3 page Word doc teacher version with answers
• 10 - 2 page Word doc student version with room to fill in answers (text boxes)
• 10 - 3 page PDF teacher version with answers
• 10 - 2 page PDF student version without answers (but space left to do so)

More will be coming to cover other subjects and other topics, so please do keep an eye out for more science articles from The Teaching Astrophysicist!

If you have any questions, please feel to DM me on instagram @theteachingastrophysicist

Let’s Connect! - All under the handle - The Teaching Astrophysicist

Be sure to follow my:

★ Instagram

★ Pinterest

Tes paid licence How can I reuse this?

Your rating is required to reflect your happiness.

It's good to leave some feedback.

Something went wrong, please try again later.

This resource hasn't been reviewed yet

To ensure quality for our reviews, only customers who have purchased this resource can review it

Report this resource to let us know if it violates our terms and conditions. Our customer service team will review your report and will be in touch.

Not quite what you were looking for? Search by keyword to find the right resource:

What would Project 2025 do for education: Why the conservative plan may not sound new in Tennessee

Project 2025 is touted as a conservative plan for the first six months of a potential second Donald Trump administration. The over-900 page "Mandate for Leadership" also lays out plans for the state of education, but to Tennesseans the plans may not be too unfamiliar.

Among other things, the plan calls for an elimination of federal education policy and endorses school choice in line with Tennessee Gov. Bill Lee's recent education-related proposals. At the Republican National Convention July 16, Lee called school choice the "civil rights issue of our time," bringing his signature issue - school vouchers - to a national audience.

The plan for education is written by Lindsey Burke , director of the Center for Education Policy at the Heritage Foundation.

What does Project 2025 say on education?

Here are some highlights on what the plan says about K-12 education and how it's in line with what Tennessee lawmakers either endorsed or made laws on already.

What is Project 2025? Is it Trump's plan What to know about the right-wing plan for a conservative nation

Project 2025 promotes school choice by way of vouchers

The plan states "... every parent should have the option to direct his or her child’s share of education funding through an education savings account."

This is in line with legislation pushed by Lee for Tennesseans though his signature proposal for a  statewide school voucher program . The legislation failed this year over vast differences between dueling Senate and House versions, in addition to significant pushback from local public school stakeholders across the state.

Additionally, the plan also calls for lessening federal restrictions on charter schools.

More freedom to states and a rejection of federal funding

The document calls for removal of "red tape from Washington" endorsing policymaking and funding at the state and local level "closest to the affected families." It also calls for federal Title I funding, reserved for low-income schools, to be administered with no strings attached.

This too, is in line with Republican leadership in Tennessee.

Last year , legislative leaders appointed a 10-member panel to determine whether the state can reject nearly $1.9 billion a year in federal funding for K-12 education and make up the difference in state money.

Lee also denounced the federal government’s "excessive overreach" as he expressed support for the move.

On critical race theory and 'gender ideology'

The nationwide plan calls for an enforcement of civil rights "based on a proper understanding of those laws" and a rejection of "gender ideology and critical race theory," in line again with Tennessee.

This directive is at least three-years too late for Tennessee legislators who in 2021 banned public schools from teaching critical race theory.

A need to improve math and reading scores

Quoting data from the National Assessment of Educational Progress, NAEP, the plan calls for a reform to correct countrywide "academic stagnation" by way of improving math and reading scores.

In 2021, the state legislature passed a law requiring third graders who score less than "met" or "exceeded expectations" on TN Ready tests to attend a summer reading camp or tutoring program, or repeat the grade. The controversial law commonly referred to as "third grade reading and retention law" went into effect in the 2022-2023 school year.

But, this law isn't unique to Tennessee. In the wake of the pandemic, dozens of other states also enacted retention laws, including a slew of new efforts to address learning loss during the coronavirus pandemic.

Transforming Title IX

The plan calls for the new presidential administration to commence a new agency process to rescind the current Title IX regulations and "define sex under Title IX to mean only biological sex recognized at birth."

"The next administration should move quickly to restore the rights of women and girls and restore due process protections for accused individuals," the document states.

Tennessee joined five other states to sue the U.S. Department of Education to fight new Title IX rules that include protections for LGBTQ+ students, saying they upend women's rights and put students, families and schools in harm's way.

Tennessee passed a law in 2021 barring transgender students in middle and high schools from playing on sports teams that match their gender identities. Tennessee also has a 2021 law in place banning transgender students and faculty from accessing bathrooms and locker rooms consistent with their gender identity. A lawsuit, backed by the Human Rights Campaign, is ongoing and set for trial in 2025.

On special education related reforms

Similar to the view on other federal funding, the plan calls for Individuals with Disabilities Education Act funding to be converted into a "no-strings formula" distributed locally without federal oversight.

A recent report from the Tennessee Disability Coalition blamed state policymakers for setting priorities and adopting policies that are increasingly punishing and excluding special education students.

The criticisms come after Tennessee enacted a string of increasingly stringent laws aimed at tightening discipline in the classroom — from the  2021 Teacher’s Discipline Act  empowering teachers to remove chronically unruly students to a  2024 law requiring a one-year suspension  for students who assault teachers at school. Such policies, the report said, disproportionately affect students with disabilities, particularly those with behavioral issues.

Who is behind Project 2025?

The  Heritage Foundation , a conservative think tank and a sponsor of the  Republican  National  Convention is the group behind the 2025 Presidential Transition Project, popularly known as Project 2025 .

It was founded in 1973 during Richard Nixon’s administration and since then has exerted a strong influence over Republican policy.

What else do I need to know about Project 2025?

The plan outlines conservative agendas that would mean the repeal of parts of initiatives President Joe Biden and former President Barack Obama brought forth during their tenure at the White House, including student debt forgiveness and the Affordable Care Act. Beyond that, the  deportation of undocumented immigrants  is high up on Project 2025's to-do list.

There is also a section of this plan that appears to undo LGBTQ+ rights in multiple different areas, including banning people with HIV or those who are transgender from serving in the military,  rescinding regulations  that bar discrimination “on the basis of sexual orientation, gender identity, transgender status, and sex characteristics,” and also seems to oppose same-sex marriage and gay couples adopting children by seeking to "maintain a biblically based, social science-reinforced definition of marriage and family."

For many it has become a hot topic among celebrities, political figures, media and on social media in recent weeks.

How could Project 2025 change education?

Share this:

• Click to share on LinkedIn (Opens in new window)
• Click to share on Pinterest (Opens in new window)
• Click to share on Reddit (Opens in new window)
• Click to share on WhatsApp (Opens in new window)
• Click to email a link to a friend (Opens in new window)

The Hechinger Report is a national nonprofit newsroom that reports on one topic: education. Sign up for our  weekly newsletters  to get stories like this delivered directly to your inbox. Consider supporting our stories and becoming  a member  today.

Get important education news and analysis delivered straight to your inbox

• Weekly Update
• Future of Learning
• Higher Education
• Early Childhood
• Proof Points

The proposals in the 2025 Presidential Transition Project — known as Project 2025 and designed for Donald Trump — would reshape the American education system, early education through college, from start to finish. 

The conservative Heritage Foundation is the primary force behind the sprawling blueprint, which is separate from the much less detailed Republican National Committee 2024 platform , though they share some common themes.

Kevin Roberts, the president of Heritage and its lobbying arm, Heritage Action, said in an interview with USA TODAY that Project 2025 should be seen “like a menu from the Cheesecake Factory.” No one president could take on all these changes, he said. “It’s a manual for conservative policy thought.”

The fast-changing political landscape makes it difficult to say which of these proposals might be taken up by Trump if he wins reelection. He has claimed to know nothing about it, though many of his allies were involved in drafting it . The exit of President Joe Biden from the presidential race may have an impact on Project 2025 that is still unknown. Finally, many of the broadest proposals in the document, such as changes to Title I and the Individuals with Disabilities Education Act, would require congressional action, not just an order from the White House.

However, it remains a useful document for outlining the priorities of those who would likely play a part in a new Trump administration. The Hechinger Report created this reference guide that digs into the Project 2025 wishlist for education.

Stories that inspire

Sign up to receive our deeply reported education coverage in your inbox, every Tuesday.

Choose a topic

Early childhood.

Child care for military families

Project 2025 calls for expanding child care for military families, who have access to programs that are often upheld as premier examples of high-quality care in America. – Jackie Mader Head Start and child care  

Project 2025 calls for eliminating the Office of Head Start, which would lead to the closure of Head Start child care programs that serve about 833,000 low-income children each year. Most Head Start children are served in center-based programs, which have an outsized role in rural areas and prioritize enrolling a certain percentage of young children with disabilities who often struggle to find child care elsewhere. Head Start also provides a critical funding and resource stream to other private child care programs that meet Head Start standards, including home-based programs. – J. M. Home-based child care

A conservative administration should also prioritize funding for home-based child care rather than “universal day care” in programs outside the home, Project 2025 says. That funding would include money for parents to stay home with a child or to pay for “familial, in-home” care, proposals that could be appealing to some early childhood advocates who have long called for more resources for informal care and stay-at-home parents . – J. M.

On-site child care

If out-of-home child care is necessary, Congress should offer incentives for on-site child care, Project 2025 says, because it “puts the least stress on the parent-child bond.” Early childhood advocates have been wary of such proposals because they tie child care access to a specific job . It also calls on Congress to clarify within the Fair Labor Standards Act that an employer’s expenses for providing such care are not part of the employee’s pay. – J. M.

K-12 education

Data collection  

The National Assessment of Educational Progress, known as the “Nation’s Report Card,” should release student performance data based on “family structure” — in addition to existing categories such as race and socioeconomic status — Project 2025 argues. Family structure, the document says, is “one of the most important — if not the most important — factor influencing student educational achievement and attainment.” The document goes on to endorse “natural family structure” of a heterosexual, two-parent household, “because all children have a right to be raised by the men and women who conceived them.” — Sarah Butrymowicz 

LGBTQ students  

Project 2025 advocates a rollback of regulations that protect people from discrimination on the basis of sexual orientation and gender identity. It calls for agencies to “focus their enforcement of sex discrimination laws on the biological binary meaning of ‘sex.’” 

The plan also calls on Congress and state lawmakers to require schools to refer to students by the names on their birth certificates and the pronouns associated with their biological sex, unless they have written permission from parents to refer to them otherwise.

The plan also equates transgender issues with child abuse and pornography, and proposes that school libraries with books deemed offensive be punished. — Ariel Gilreath

Privatization  

In place of a federal Education Department, the blueprint calls for widespread public education funding that goes directly to families, as part of its overarching goal of “advancing education freedom.”

The document specifically highlights the education savings account program in Arizona, the first state to open school vouchers up to all families. Programs like Arizona’s have few, if any, restrictions on who can access the funding. Project 2025 also calls for education savings accounts for schools under federal jurisdiction, such as those run by the Department of Defense or the Bureau of Indian Education. 

In addition, Project 2025 calls on Congress to look into creating a federal scholarship tax credit to “incentivize donors to contribute” to nonprofit groups that grant scholarships for private school tuition or education materials. — Ariel Gilreath and Neal Morton School meals  

The federal school meals program should be scaled back to ensure that only children from low-income families are receiving the benefit, the document says. Policy changes under the Obama administration have made it easier for entire schools or districts to provide free meals to students without families needing to submit individual eligibility paperwork. — Christina A. Samuels

Special education 

Project 2025 says that the Individuals with Disabilities Education Act, which provides $14.2 billion in federal money for the education of school-aged children with disabilities, should be mostly converted to “no-strings” block grants to individual states. Lawmakers should also consider making a portion of the federal money payable directly to parents of children with disabilities, it says, so they can use it for tutoring, therapies or other educational materials. This would be similar to education savings accounts in place in Arizona and Florida . 

The blueprint also calls for rescinding a policy called “ Equity in IDEA .” Under that policy, districts are required to evaluate if schools are disproportionately enrolling Black, Native American and other ethnic minority students in special education. Districts must also track how these students are disciplined, and if they are more likely than other students in special education to be placed in classrooms separate from their general education peers. Current rules, which Project 2025 would eliminate, require that districts that have significant disparities in this area must use 15 percent of their federal funding to address those problems. — C.A.S.

Teaching about race 

Project 2025 elevates concerns among members of the political right that educating students about race and racism risks promoting bias against white people. The document discusses the legal concept of critical race theory, and argues that when it is used in teacher training and school activities such as “mandatory affinity groups,” it disrupts “the values that hold communities together such as equality under the law and colorblindness.” 

The document calls for legislation requiring schools to adopt proposals “that say no individual should receive punishment or benefits based on the color of their skin,” among other recommendations. It also calls for a federal Parents’ Bill of Rights that would give families a “fair hearing in court” if they believed the federal government had enforced policies undermining their right to raise their children. — Caroline Preston

This program, funded at a little over $18 billion for fiscal 2024, is the largest federal program for K-12 schools and is designed to help children from low-income families. The conservative blueprint would encourage lawmakers to make the program a block grant to states, with few restrictions on how it can be used — and, over 10 years, to phase it out entirely. Additionally, it says, lawmakers should allow parents in Title I schools to use part of that funding for educational savings accounts that could be spent on private tutoring or other services. — C.A.S.

Higher education

Affirmative action and diversity, equity and inclusion  

The document calls for prosecuting “all state and local governments, institutions of higher education, corporations, and any other private employers” that maintain affirmative action or DEI policies. That position matches the views expressed by Donald Trump and his running mate, Sen. J.D. Vance of Ohio, about the use of race in college admissions and beyond. — Liz Willen  

In higher education, the proposal argues that college graduation and earnings data need a “risk adjustment” that factors in the types of students served by a particular institution. While selective colleges tend to post the highest graduation rates and student earnings, they also tend to enroll the least-“risky” students. A risk adjustment methodology could benefit community colleges, which often have low graduation rates but enroll many nontraditional students who face obstacles to earning a degree. It would also likely benefit for-profit colleges, which similarly tend to accept most applicants. Historically, for-profit schools have received scrutiny under Democratic administrations for poor outcomes and for allegedly misleading students about the value of the education they provide. Republican administrations typically have supported less regulation of for-profit institutions. — S.B. 

Parent PLUS loans and Pell grants  

The blueprint calls for the elimination of the Parent PLUS loan program, arguing that it is redundant “because there are many privately provided alternatives available.” Originally created for relatively affluent families, the PLUS loan program has become a crucial way for lower- and middle-income families to pay for college. In recent years, it has sparked criticism due to rising default rates and fewer protections than are afforded to otherstudent loan borrowers.  

At present, interest rates for private loans are significantly lower than Parent PLUS rates, but they come with fewer protections, and it is more difficult to get approved for a private-bank loan. Project 2025 would also get rid of PLUS loans for graduate students.

If the federal PLUS programs were eliminated, it could stem one portion of the rising tide of families’ education debt, but it would also make the path to paying for college more difficult for some families. 

Project 2025 does not call for a change to the Pell grant program, which provides federal funding for students from low-income families to attend college. Some advocates have called for doubling the annual maximum allotment, which is $7,395 for the 2024-25 school year, far below the cost to attend many colleges. — Meredith Kolodner and Olivia Sanchez

Student loan forgiveness  

Project 2025 would end the prospect of student loan forgiveness, which has already been largely blocked by federal courts; the Biden administration, in a sort of game of Whac-a-Mole, has proposed still more forgiveness programs that are being fought by Republican state attorneys general and others. Project 2025 would also dramatically restrict what’s known as “borrower defense to repayment,” which forgives loans borrowed to pay for colleges that closed or have been found to use illegal or deceptive marketing. Largely restricting the Education Department to collecting statistics, Project 2025 would shift responsibility for student loans to the Treasury Department. — Jon Marcus

This story about Project 2025  was produced by  The Hechinger Report , a nonprofit, independent news organization focused on inequality and innovation in education. Sign up for our  higher education newsletter . 

Related articles

The Hechinger Report provides in-depth, fact-based, unbiased reporting on education that is free to all readers. But that doesn't mean it's free to produce. Our work keeps educators and the public informed about pressing issues at schools and on campuses throughout the country. We tell the whole story, even when the details are inconvenient. Help us keep doing that.

Join us today.

Jackie Mader SENIOR REPORTER

(212)... More by Jackie Mader

Christina A. Samuels DEPUTY MANAGING EDITOR

Christina... More by Christina A. Samuels

Sarah Butrymowicz SENIOR EDITOR FOR INVESTIGATIONS

(212)... More by Sarah Butrymowicz

Ariel Gilreath SOUTHERN EDUCATION REPORTER

(212)... More by Ariel Gilreath

Neal Morton WESTERN EDUCATION REPORTER

(212)... More by Neal Morton

Caroline Preston MANAGING EDITOR

Caroline... More by Caroline Preston

Liz Willen EDITOR IN CHIEF

Sign... More by Liz Willen

Olivia Sanchez HIGHER EDUCATION REPORTER

(212)... More by Olivia Sanchez

Meredith Kolodner SENIOR INVESTIGATIONS REPORTER

Meredith... More by Meredith Kolodner

Jon Marcus SENIOR HIGHER EDUCATION REPORTER

Jon... More by Jon Marcus

Letters to the Editor

At The Hechinger Report, we publish thoughtful letters from readers that contribute to the ongoing discussion about the education topics we cover. Please read our guidelines for more information. We will not consider letters that do not contain a full name and valid email address. You may submit news tips or ideas here without a full name, but not letters.

By submitting your name, you grant us permission to publish it with your letter. We will never publish your email address. You must fill out all fields to submit a letter.

Your email address will not be published. Required fields are marked *

Save my name, email, and website in this browser for the next time I comment.

Sign me up for the newsletter!

• Newsletters

IE 11 Not Supported

Global ed-tech competition awards $8m for innovative ideas, in addition to giving money to 50 companies for educational apps, programs or research, the tools competition has a new partnership with openai that rewards one team leveraging artificial intelligence..