Abhay Prakash Srivastava | Density Functional Theory | Outstanding Scientist Award

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Dr. Abhay Prakash Srivastava | Density Functional Theory | Outstanding Scientist Award

Goel Institute of Technology and Management Lucknow | India

Dr. Abhay Prakash Srivastava is an accomplished academician in the field of Physics with over fourteen years of rich teaching experience across engineering institutes and higher education institutions. He earned his Ph.D. in Physics from Madan Mohan Malviya University of Technology, Gorakhpur, in 2025, complementing his strong academic foundation that includes an M.Sc. in Physics with specialization in Electronics and a B.Sc. in Physics and Mathematics from Dr. R.M.L. Awadh University. Throughout his career, he has served in various academic roles, currently working as an Assistant Professor of Physics at Ambalika Institute of Management and Technology, Lucknow, and previously contributing significantly at institutions such as Bansal Institute of Engineering and Technology, R. R. Institute of Modern Technology, and Dr. M.C. Saxena College of Engineering and Technology. His teaching portfolio spans undergraduate engineering courses and school-level physics, reflecting his versatility and commitment to physics education. Dr. Srivastava’s research interests lie in core and applied areas of physics with an emphasis on electronics-oriented concepts and pedagogy-driven research. The award of his doctoral degree stands as a major academic milestone, recognizing his sustained dedication to research and teaching excellence. Overall, he is widely regarded as a dedicated educator and researcher who continues to contribute meaningfully to physics education and academic development.

Featured Publications

Formulation for the Prediction of Melting Temperature of Metallic Solids Using Suitable Equation of States

– Computational Condensed Matter, Vol. 35, e00807 (2023)
Theoretical Prediction of Thermoelastic Properties of Bismuth Ferrite by a New Approach

– Journal of Mathematical Chemistry, Vol. 62(9), 2253–2264 (2024)
A New Approach to Evaluate Pressure of Solids at High Compression

– National Academy Science Letters, Springer India (2024)
Analysis of the Structural and Electronic Properties of TiO2 Under Pressure Using Density Functional Theory and Equation of State

– Computational Condensed Matter, e01076 (2025)
A Constructive Approach to Formulating Pressure-Dependent Binding Energy Using the Equation of State

– Ionics (2025)

Jishad Kumar | Quantum Statistical Physics | Research Excellence Award 

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Dr. Jishad Kumar | Quantum Statistical Physics | Research Excellence Award 

Aalto University | Finland

Dr. Jishad Kumar is an accomplished physicist with extensive international research and teaching experience across leading academic institutions. His academic journey began with a BSc and MSc in Physics from Mahatma Gandhi University, followed by a PhD in Physics from IISER Kolkata, where he developed a strong foundation in theoretical and statistical physics. He has held multiple postdoctoral fellowships at globally renowned institutions including Charles University in Prague, the University of Pennsylvania, the Weizmann Institute of Science, and Aalto University, contributing significantly to advanced research in quantum systems. His professional experience also includes roles as a research associate, visiting scientist, and private tutor, demonstrating a strong commitment to both research and education. Dr. Kumar’s research interests span statistical physics and condensed matter physics, with particular emphasis on equilibrium and non-equilibrium quantum phenomena, open quantum systems, quantum thermodynamics, quantum chaos, quantum transport, decoherence, and soft matter physics. He has actively engaged in teaching and student supervision, mentoring undergraduate and graduate research projects in cutting-edge areas of quantum technology. In recognition of his scholarly contributions, he has been acknowledged as an IOP Trusted Reviewer. Overall, Dr. Jishad Kumar’s career reflects a sustained dedication to advancing theoretical physics through research excellence, interdisciplinary exploration, and academic mentorship.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Low Temperature Thermodynamics in the Context of Dissipative Diamagnetism

Jishad Kumar, P. A. Sreeram, Sushanta Dattagupta –
Physical Review E, Vol. 79, Issue 2, 021130 (2009)
Dissipative Quantum Systems and the Heat Capacity

S. Dattagupta, Jishad Kumar, S. Sinha, P. A. Sreeram –
Physical Review E, Vol. 81, Issue 3, 031136 (2010)
Dissipative Dynamics of a Harmonic Oscillator: A Nonperturbative Approach

Jishad Kumar, S. Sinha, P. A. Sreeram –
Physical Review E, Vol. 80, Issue 3, 031130 (2009)
Third Law of Thermodynamics for the Dissipative Cyclotron Motion

Jishad Kumar –
AIP Advances, Vol. 3, Issue 11, 112131 (2013)
Quantum Dynamics of a Dissipative and Confined Cyclotron Motion

Jishad Kumar –
Physica A: Statistical Mechanics and its Applications,
Vol. 393, Issue 1, pp. 182–206 (2014)

Santosh Chackrabarti | Thick Films | Research Excellence Award

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Dr. Santosh Chackrabarti | Thick Films | Research Excellence Award

Jamia Millia Islamia | India

Dr. Santosh Chackrabarti is a dedicated researcher in nanophotonics and materials science, recognized for his contributions to semiconductor lasers, nanostructured thin films, and advanced 2D and metal oxide materials. With a strong academic foundation including a Ph.D. in Material Science and Lasers, an M.Sc. in Physics, and a B.Sc. in Physics, he has developed expertise across optical, electrical, and structural characterization techniques such as SEM, XRD, FTIR, UV-Vis, and photoluminescence analysis. His professional journey spans impactful roles as a freelance researcher, research associate, guest lecturer, and physics educator at undergraduate and postgraduate levels, demonstrating proficiency in both scientific innovation and academic instruction. He has authored more than seventeen peer-reviewed journal publications, review articles, and book chapters, along with presenting at international conferences. His research interests include semiconductor thin films, nanostructured oxides, optoelectronic materials, quantum wells, and laser-material interactions, with additional involvement in photocatalytic nanomaterials for energy and environmental applications. His work on metal oxide nanocomposites has been supported by competitive research grants, reflecting recognition of his scientific capabilities. Dr. Chackrabarti continues to advance interdisciplinary research while inspiring emerging scholars through mentorship and high-quality teaching.

Profile: Scopus

Featured Publications

An in-depth Analysis of the Physical Characteristics of TiO2–CuO Films Fabricated via Spray Pyrolysis

Journal: Semiconductors

Year: 2024

Dr. Iheke Michael Nwachukwu | Electrochemical Energy Storage System | Best Review Paper Award

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Dr. Iheke Michael Nwachukwu | Electrochemical Energy Storage System | Best Review Paper Award

National Open University of Nigeria, Abuja | Nigeria

Dr. Iheke Michael Nwachukwu is a motivated research scientist and university lecturer specializing in nanostructured metal oxides, energy-saving and conversion devices, and lithium-ion batteries with carbon nanocomposites. He holds a PhD in Solar Energy Physics (2023), an M.Sc in Solar Energy Physics (2016), and a B.Sc in Physics (2010) from the University of Nigeria. Dr. Nwachukwu has extensive experience in designing experiments, synthesizing and characterizing nanomaterials for supercapacitors and Li-ion battery applications, contributing to several journal publications and submissions. His expertise extends to renewable energy assessment, understanding environmental impacts, and translating scientific insights into practical applications. Skilled in SEM/EDX, TEM, AFM, XRD, UV-Vis, and electrochemical techniques including EIS and CV, he combines hands-on technical knowledge with strong research analysis, problem-solving, and communication abilities. In addition to research, he serves as Assistant Departmental Examination Officer, Faculty Representative to the Academic Board, and Departmental Physics Practical Coordinator at the National Open University of Nigeria. Recognized for his contributions to nanotechnology and energy research, he was awarded 2nd Best Poster Presenter at the 4th African Conference on Nanotechnology Applications (2021) and serves on the Editorial Board of the International Chemistry Scientist Awards (2024). Dr. Nwachukwu continues to advance sustainable energy solutions through innovative research and academic leadership.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Inyang, E., Ekechukwu, C., Nwachukwu, I., Thompson, E., William, E., & Lawal, K. (2025). Non-relativistic Solutions of the modified Hylleraas potential in the presence of external magnetic and Aharonov-Bohm flux fields for heteronuclear diatomic molecules. Physical Sciences and Technology.

Inyang, E.P., Nwachukwu, I.M., Ekechukwu, C.C., Ekong, I.B., William, E.S., Lawal, K.M., Simon, J., Momoh, K.O., & Oyelami, O.A. (2024). Analytical solution of the class of inversely quadratic Yukawa potential with application to quantum mechanical systems. Eurasian Physical Technical Journal.

Nwachukwu, I.M., Nwanya, A.C., Ekwealor, A.B.C., & Ezema, F.I. (2024). The potentials of LiMnPO4 cathode material for aqueous Li-ion batteries: An investigation into solid state and green chemistry approaches. Applied Surface Science Advances.

Ngongang, R.T., Nwanya, A.C., Onoh, E.U., Nwachukwu, I.M., Ugwuoke, C., Atawa, B., Ottou Abe, M.T., Ndjaka, J.-M.B., & Ezema, F.I. (2023). Studies of the dielectric properties of PVDF-CaCu3Ti4O12 composite thin film: Experimental and theoretical. SSRN Preprint.

Nwachukwu, I.M., Nwanya, A.C., Ekwealor, A.B.C., & Ezema, F.I. (2023). Research progress in solid-state synthesized LiMnPO4 cathode material for Li-ion battery applications. Applied Surface Science Advances.

Nwachukwu, I.M., Nwanya, A.C., Alshoaibi, A., Awada, C., Ekwealor, A.B.C., & Ezema, F.I. (2023). Recent progress in green synthesized transition metal-based oxides in LIBs as energy storage devices. Current Opinion in Electrochemistry.

Nwachukwu, I.M., & Nwanya, A.C. (2022). Recent progress in Mn and Fe-rich cathode materials used in Li-ion batteries. Journal of Energy Storage.