Harish Verma | Material Science | Research Excellence Award

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Mr. Harish Verma | Material Science | Research Excellence Award

Indian Institute of Technology (Banaras Hindu University) | India

Harish Verma is a dedicated researcher in the Department of Physics at the Indian Institute of Technology (BHU), Varanasi, contributing significantly to advanced materials research with an academic profile supported by 109 citations, an h-index of 7, and an i10-index of 2. He is pursuing a Ph.D. in Physics with a focus on undoped and doped LaFeO₃, rGO, and MXene-based nanocomposites for high-performance supercapacitor applications, integrating Density Functional Theory, artificial intelligence, and machine learning simulations. His postgraduate training includes an M.Phil. in Physics with specialization in nanotechnology and an M.Sc. in Physics with electronics, complemented by multiple research projects involving nanomaterial synthesis, gas sensors, and magnetic fluid preparation. He has contributed to numerous peer-reviewed publications across reputed journals, presenting his work in national and international conferences, along with earning recognition for best oral presentations. His research interests encompass perovskite oxides, graphene-based materials, MXenes, dielectric ceramics, energy storage devices, optoelectronics, and solid-state physics. He has hands-on experience with advanced characterization techniques and material fabrication methods. He has also been associated with a funded project supported by a premier defense research board. Committed to innovative energy solutions, he continues to advance the field of functional materials for next-generation storage technologies.

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Featured Publications

Verma, H., Tripathi, A., & Upadhyay, S. (2024). A comprehensive study of dielectric, modulus, impedance, and conductivity of SrCeO₃ synthesized by the combustion method. International Journal of Applied Ceramic Technology, 21(4), 3032–3047.

Verma, S., Das, T., Verma, S., Pandey, V. K., Pandey, S. K., Verma, H., & Verma, B. (2025). Hierarchically architecture of Ru-doped multichannel carbon nanotubes embedded with graphene oxide for supercapacitor material with long-term cyclic stability. Fuel, 381, 133517.

Verma, S., Maurya, A., Verma, H., Singh, R., & Bhoi, B. (2024). Unveiling the characteristics of MgAl0.5Fe1.5O₄ spinel ferrite: A study of structural, optical, and dielectric properties. Chemical Physics Impact, 9, 100674.

Verma, H., Kumar, P., Satyarthi, S. K., Bhattacharya, B., Singh, A. K., & Upadhyay, S. (2025). Investigation of La₂FeO₄–rGO nanocomposite electrode material for symmetric and asymmetric supercapacitor. Journal of Energy Storage, 114, 115849.

Nirala, G., Katheriya, T., Yadav, D., Verma, H., & Upadhyay, S. (2023). The evolution of coil-less inductive behaviour in La-doped Sr₂MnO₄. Emergent Materials, 6(6), 1951–1962.

Neeraj Kumar | Nanomaterial | Best Researcher Award

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Assist. Prof. Dr. Neeraj Kumar | Nanomaterial | Best Researcher Award

NIMS University | India

Dr. Neeraj Kumar is an accomplished Assistant Professor in the Department of Chemistry, NIMS University, Jaipur, recognized for his research excellence in material science and nanotechnology. With an h-index of 9, 176 citations, and over 25 research documents, his scholarly contributions focus on zeolite synthesis, nanocomposites, sensors, adsorption chemistry, decontamination, and energy storage materials. He holds a Ph.D. in Chemistry from Jiwaji University, along with postgraduate and undergraduate degrees in Chemistry and Physical Sciences. Dr. Kumar has over seven years of combined teaching and research experience, including work on NIF-DST-funded projects and collaborative studies in nanomaterial synthesis and optoelectronic applications. His innovative approach has led to three published patents, multiple SCI and Scopus-indexed publications, and authorship of book chapters with Elsevier, Springer, and Bentham Science. He has also received several honors, including Best Oral Presentation Awards and recognition as a Senior Research Fellow (SRF) in government-funded projects. A member of American Chemical Society and Commonwealth Chemistry, Dr. Kumar continues to inspire scientific innovation through his work on sustainable materials and advanced chemical technologies, contributing significantly to the field of applied and environmental chemistry.

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Featured Publications

Dipak, P., Tiwari, D. C., Samadhiya, A., Kumar, N., Biswajit, T., & Singh, P. A. (2020). Synthesis of polyaniline (printable nanoink) gas sensor for the detection of ammonia gas. Journal of Materials Science: Materials in Electronics, 31(24), 22512–22521.

Agrawal, A., Jain, N. K., Kumar, N., & Kulkarni, G. T. (2020). Molecular docking study to identify potential inhibitor of COVID-19 main protease enzyme: An in-silico approach. ChemRxiv. https://doi.org/10.26434/chemrxiv.12170904.v1

Kumar, N., Dipak, P., Tiwari, D. C., & Tomar, R. (2020). Study and characterization of polyaniline/zeolite-MOR nanocomposite and their role in detection of chemical warfare agent simulant-CEES. Chemical Physics Letters, 755, 137766.

Meena, A. K., Perumal, A., Kumar, N., Singh, R., Ilavarasan, R., Srikanth, N., & Dhiman, K. S. (2022). Studies on physicochemical, phytochemicals, chromatographic profiling and estimation and in-silico study of Negundoside in roots and small branches of Vitex negundo plant. Phytomedicine Plus, 2(1), 100205.

Meenu, K., Kumar, N., Tiwari, K. R., Yadav, T., Tomar, R., & Gupta, A. K. (2020). Synthesis and characterization of zeolite Linde Type W and its metal oxide composite Ag–O–LTW used for the decontamination of chemical warfare agent simulant. Phosphorus, Sulfur, and Silicon and the Related Elements, 195(10), 881–888.