Mr. T. T. Khaleelul Rahman | Biopolymer Nanocomposites | Best Researcher Award

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Mr. T. T. Khaleelul Rahman | Biopolymer Nanocomposites | Best Researcher Award

University of Calicut | India

Mr. T. T. Khaleelul Rahman is an emerging researcher in the field of Physics, with a strong academic foundation and a growing passion for scientific innovation. He is currently pursuing an Integrated M.Sc. in Physics at the University of Calicut, Kerala, where his academic excellence is reflected in a remarkable GPA of 94.5%. His coursework spans a wide range of subjects including Mathematical Physics, Quantum Mechanics, Computational Physics, and Nanoscience, complemented by specialized study in nanomaterials for energy production and storage. His research interests focus on Material Science, Computational Physics, Nanoscience, Energy Storage Technology, and Electronics. He has gained valuable research experience through an internship at the Centre for Polymeric Science and Technology under the mentorship of Prof. M. T. Ramesan, where he contributed to studies on polymeric nanocomposites. His earlier project explored optoelectrical enhancements in polyvinyl formal through nanocurcumin reinforcement. Beyond academics, he has demonstrated leadership as an academic volunteer in programs such as NSS and Saasthrayan and has worked as a freelance physics educator for competitive exams. His academic distinction has earned him several recognitions including the Prof. Joseph Mundassery Scholarship and the P. Shehan Endowment Award. Rahman continues to pursue excellence with a vision to advance materials and energy research.

Profiles: Scopus | Orcid

Featured Publications

Najmu Shabah, N., Khaleelul Rahman, T. T., Gopika, R., & Ramesan, M. T. (2025, July 7). Multifunctional polyvinyl alcohol / maranta arundinacea starch / LiAgO nanocomposites: A sustainable approach for antibacterial and optoelectronic applications. Journal of Thermoplastic Composite Materials.

Ramesan, M. T., Gopika, R., Khaleelul Rahman, T. T., Jamsheena, K. T., & Bahuleyan, B. K. (2025, April). Impact of nanocurcumin on mechanical, optical and electrical properties of chitosan/polyvinyl alcohol blend nanocomposites for sustainable applications. International Journal of Biological Macromolecules.

Mr. Manish Yadav | Nanomaterials | Best Researcher Award

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Mr. Manish Yadav | Nanomaterials | Best Researcher Award

Ariel University | Israel

Manish Yadav is a dedicated researcher in electrochemical CO₂ reduction, with expertise in advanced nanomaterials, catalysis, and sustainable energy solutions. He recently completed his PhD in Chemistry at Ariel University, Israel, where his doctoral work focused on understanding the nature of laser-processed, metal-doped carbon-based materials for CO₂ electro-reduction into valuable commodity products. His research involved the synthesis of highly graphitized reduced carbon nanodots through laser irradiation, controlled doping of copper nanomaterials in carbon supports, and the development of laser-assisted single-atom catalysts. Prior to this, he pursued his BS-MS Integrated degree at the Indian Institute of Science Education and Research (IISER) Mohali, where his thesis explored the kinetic stability of halogenated azobenzene isomers through structural, kinetic, and computational studies. His academic journey is marked by multiple recognitions, including the prestigious Excellence Award in Doctoral Research in 2023 and 2025. His findings have been presented in several international conferences across Israel, France, Spain, and Germany, and he has contributed high-impact publications in journals such as Carbon and ACS Applied Energy Materials. With strong skills in spectroscopy, microscopy, electrochemistry, and computational modeling, he continues to advance the design and mechanistic understanding of catalysts for clean energy and environmental sustainability.

Profiles: Orcid | Google Scholar

Featured Publications

Porat, H., Lal, A., Dutta, A., Yadav, M.K., Sesu, D.C., Minnes, R., & Borenstein, A. (2025). Nickel-oxide embedded laser-induced graphene for high-performance supercapacitors. Nanoscale.

Yadav, M.K., Dutta, A., Lal, A., Porat, H., Zidki, T., & Borenstein, A. (2025, September 8). Laser-Induced Synthesis of Copper-Based Nanomaterials for CO₂ Electroreduction into Methanol. ACS Applied Energy Materials.

Lal, A., Porat, H., Dutta, A., Yadav, M.K., & Borenstein, A. (2025, June 25). Laser‐Induced HKUST‐1 Derived Porous Electrocatalyst: An Innovative Approach to Boost Sustainable Ammonia Synthesis. Advanced Sustainable Systems.

Dutta, A., Manjunath, K., Porat, H., Lal, A., Yadav, M.K., Mandić, V., Laikhtman, A., Zak, A., Makrinich, G., & Borenstein, A. et al. (2024). Plasma-Treated 1D Transition Metal Dichalcogenides for Efficient Electrocatalytic Hydrogen Evolution Reaction. Journal of Materials Chemistry A.

Yadav, M.K., & Borenstein, A. (2022, October). Is precarbonization necessary for effective laser graphitization? Carbon.

Das, D., Yadav, M.K., Singla, L., Kumar, A., Karanam, M., Dev, S., & Choudhury, A.R. (2020, November 30). Understanding of the kinetic stability of cis-isomer of azobenzenes through kinetic and computational studies. ChemistrySelect.