Chemistry Dissertation Titles India 2025

Chemistry Dissertation Titles

Info: 600 words Chemistry Dissertation Titles

Published: 23^th Jun 2025 in Chemistry Dissertation Titles

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Chemistry has a fundamental role to play in solving real-world problems by innovating in energy, health, and materials. This compilation of dissertation titles serves as examples of relevant and impactful research topics—around green chemistry, drug delivery, advanced materials, etc.—to help inspire your own valuable and original scientific research. Check out these outstanding chemistry dissertation titles for ideas as you develop your own research idea!

1. Machine Learning in Drug Discovery: Speeding Up the Identification of Lead Compounds by Using AI-Driven Molecular Design

Focus: Research investigates the use of AI algorithms in tandem with computational chemistry to predict molecular characteristics, and optimize drug-target interactions, while decreasing overall time and costs in the traditional pharmaceutical development pipelines.

2. Areas of Green Chemistry: Sustainable Catalysis with Metal-Organic Frameworks in Manufacturing

Focus: The research initiative examined the potential to develop a new green catalytic process based on MOFs as heterogeneous catalysts, which is a contribution to the manufacture industry in support of sustainable feedstocks and also assessed against industrial requirements of selectivity and efficiency.

3. Quantum Dots in Solar Energy Conversion: Pioneering Photovoltaic Material from Sustainable Resources

Focus: Research examines the synthesis and characterization of quantum dots semiconductor with a goal of developing improved solar cells and their light harvesting capability, exploring size-dependent optical properties and charge transport process to increase energy generation.

4. Electrochemical Water Splitting: Novel Electrode Materials for Hydrogen Production

Focus: Novel electrocatalysts employing transition metal compounds and carbon nanomaterials will be developed during the research, in order to overcome the current limitations to efficiency of the hydrogen evolution reaction essential for the implementation of sustainable energy storage and fuel cell technologies.

5. Smart Polymers and Stimuli-Responsive Materials: Applications in Targeted Drug Delivery

Focus: The principal area of interest is the design and synthesis of the pH-thermo-and-light-responsive polymeric systems that can trigger the selective release of therapeutic agents at the biological site where the effect is required. This advancement will usher in a paradigm shift in precision medicine.

6. Urban Pollution atmospheric chemical research: The photochemical reactions and production of secondary aerosols

Focus: Understanding the arrangement of complex chemical interactions that are atmospherically relevant to the formation of secondary particulate matter (smog) with respect to issues relating to air quality management in order to protect public health.

7. Single-Atom Catalysis: Metal Utilisation in Heterogeneous Catalytic Processes

Focus: Investigating the fundamental principles of single-atom catalysts that are on various supports, and their unique electronic properties and catalytic performance on reactions such as CO2 reduction and nitrogen fixation.

8. Supramolecular Chemistry for Drug Formulations: Host-Guest Interactions for Better Bioavailability

Focus: Studies the macrocyclic hosts including cyclodextrins and calixarenes to encourage molecular encapsulation of drugs to solve problems with solubility and stability in pharmaceutical formulation science.

9. Organic-Inorganic Hybrid Perovskites: Stability Improvements to Floationification of Photovoltaics

Focus: Studies chemical modification and barriers to improve stability of perovskite solar cells and targets the moisture uptake and thermal damage that limit commercial life.

10. Continuous Manufacturing and Flow Chemistry: Process Intensification in the pharmaceutical industry

Focus: Research studies, and advances synthetic pathways, for the production of active pharmaceutical ingredients (APIs) with respect to improved control of the reaction, safety, and scale using a microreactor technology versus pharmaceutical industry’s traditional batch process.

11. Computational Chemistry in Materials Design: Toward predicting properties of 2D materials beyond graphene

Focus: Uses density functional theory and machine learning methods, to predict electronic, mechanical and photophysical properties of novel two dimensional (2D) materials as applications in electronics and energy storage.

12. Battery Chemistry Advances: solid-state electrolytes for next generation energy storage

Focus: Investigating novel solid electrolyte materials for lithium-ion batteries as replacements to liquid electrolytes. This project extends beyond a basic intellectual inquiry and develop electric vehicles with better safety, energy density and charge rates.

Having difficulty selecting the appropriate chemistry dissertation topic? Tutors India can help you to develop research ideas to help fill in certain knowledge gaps. If a title here inspired you, great! In addition to title choices, be sure to read our article on How to Write a Dissertation Title to develop a focused and clear topic.

References

Zhang, S., Zhao, Q., Wang, L., & Chen, J. (2025). Investigating secondary organic aerosol formation from vehicular emissions in urban environments. Environmental Pollution, 328, 123654. https://doi.org/10.1016/j.envpol.2024.123654

Kaur, G., & Verma, H. (2025). Sustainable synthesis of novel bio-polymers for targeted drug delivery applications. International Journal of Engineering Technology Research & Management, 9(4), 51–57. https://ijetrm.com/issues/files/Apr-2025-10-1744258201-APR23.pdf

Ahmad, N., & Amin, M. C. I. M. (2025). Cyclodextrin-based nanocarriers for delivery of antibiotics: A review. Pharmaceutics, 17(4), 456. https://doi.org/10.3390/pharmaceutics17040456

Yang, J., Ding, Y., & Yu, G. (2025). Recent advances and perspectives of polymer electrolytes for solid-state lithium metal batteries. APL Materials, 12(1), 011316. https://doi.org/10.1063/5.0131404

Santos, A. C., Veiga, F., Ribeiro, A. J., & Zielińska, A. (2025). Supramolecular chemistry applied to drug delivery: Host–guest interactions in pharmaceutical formulations. Pharmaceutics, 17(4), 506. https://doi.org/10.3390/pharmaceutics17040506

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