Mr. Iheanyichukwu Ajoku | Materials Science | Best Researcher Award

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Mr. Iheanyichukwu Ajoku | Materials Science | Best Researcher Award

Missouri University of Science and Technology | United States

Mr. Iheanyichukwu Ajoku is a dedicated researcher specializing in sustainable materials science, with a strong focus on nuclear waste management, energy storage, and advanced materials characterization. He is currently pursuing a Doctorate in Materials Science and Engineering, majoring in Ceramic Engineering at Missouri University of Science and Technology, where he maintains a distinction grade and conducts research using advanced analytical techniques such as DSC/TGA, XRD, SEM/TEM, and Raman spectroscopy. He holds a B.Sc. in Metallurgical and Materials Engineering from the University of Lagos and is also a Certified Management Specialist from London Graduate School. With diverse experience as a Graduate Research Assistant at Missouri S&T and the University of Lagos, as well as a Risk Engineer in the industrial sector, he has contributed to projects involving welding technology, industrial safety, and STEM education. His research interests include sustainable materials for nuclear waste immobilization, MXene synthesis, biomaterials processing, and industrial risk assessment. Ajoku has received notable honorary fellowships and doctoral recognitions from institutions like American Management University and Global Nation Open University. His professional growth is strengthened by active memberships in prestigious engineering and materials societies. He continues to make impactful contributions to sustainable engineering and materials innovation.

Profiles: Orcid | Google Scholar

Featured Publications 

Evarts, J. S., Riley, B. J., Lonergan, C. E., Harris, M. S., Bai, J., Bohannan, E., Ajoku, I., Chong, S., & McCloy, J. S. (2025). “Synergy in Materials: Leveraging Phosphosilicate Waste Forms for Electrochemical Salt Waste” in ACS Sustainable Resource Management.

Ajoku, I., & Ani, P. C. (2025). “Phosphate-based vitrification strategies for electrorefiner salt waste management” in Journal of Radioanalytical and Nuclear Chemistry, Springer International Publishing.

Ajoku, I., Baba, A. A., Balogun, A. F., Tripathy, B. C., Okeola, F. O., Uba, F., Owolabi, A. O., Olaoluwa, D. T., & Jacob, S. O. (2025). “Preparation of an Indigenous Bismutite Ore for Improved Bismuth-Based Alloys Production” in TMS 2026 Conference Proceedings.

Dr. Arun Kumar S | Energy Storage Devices |Best Researcher Award

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Dr. Arun Kumar S | Energy Storage Devices | Best Researcher Award

Kuppam Engineering College | India

Dr. Arun Kumar S is a dedicated physicist and academician with extensive experience in nanomaterials and energy storage applications. He completed his B.Sc. in Physics with First Class from Arignar Anna College, Krishnagiri, followed by an M.Sc. in Physics from Periyar University, Salem. He earned his Ph.D. in Physics from Periyar University under the supervision of Prof. Dr. P. M. Anbarasan, focusing on hybrid supercapacitors using binder-free metal oxide electrodes for energy storage. Dr. Arun Kumar has held positions as Assistant Professor and Associate Professor in Physics at Kuppam Engineering College, where he teaches Engineering Physics, Quantum Technologies, and related courses. He has also delivered lectures in Nanoscience, Nanotechnology, and Polymer Science at CIPET: SARP-LARPM. His research expertise spans the synthesis and characterization of nanomaterials, thin-film fabrication, and development of advanced functional materials for supercapacitor devices. He possesses hands-on experience with XRD, FTIR, UV-Vis spectroscopy, XPS, SEM, TEM, EDX, electrochemical workstations, electrospinning, and spin coating techniques. Dr. Arun Kumar’s work contributes to advancing energy-efficient technologies, with a strong focus on functional nanomaterials and polymer-based electrodes. His dedication to teaching, research, and innovation continues to inspire the next generation of scientists.

Profile: Google Scholar

Featured Publications

Gowdhaman, A., Arun Kumar, S., Elumalai, D., Balaji, C., Sabarinathan, M., Ramesh, R., & Navaneethan, M. (2023). “Ni-MOF derived NiO/Ni/r-GO nanocomposite as a novel electrode material for high-performance asymmetric supercapacitor” in Journal of Energy Storage.

Aswathy, N.R., Arun Kumar, S., Mohanty, S., Nayak, S.K., & Palai, A.K. (2021). “Polyaniline/multi-walled carbon nanotubes filled biopolymer based flexible substrate electrodes for supercapacitor applications” in Journal of Energy Storage.

Prabhu, S., Maruthapandi, M., Durairaj, A., Arun Kumar, S., Luong, J.H.T., Ramesh, R., & Gedanken, A. (2023). “Performances of Co²⁺-Substituted NiMoO₄ Nanorods in a Solid-State Hybrid Supercapacitor” in ACS Applied Energy Materials.

Arun Kumar, S., Mohanty, A., Saravanakumar, B., Mohanty, S., Nayak, S.K., & Ramadoss, A. (2020). “Three-dimensional Bi₂O₃/Ti microspheres as an advanced negative electrode for hybrid supercapacitors” in Chemical Communications.

Chettiannan, B., Mathan, S., Arumugam, G., Srinivasan, A., & Rajendran, R. (2024). “Attaining high energy density using metal-organic framework-derived NiO/Co₃O₄/NiCo₂O₄ as an electrode in asymmetric hybrid supercapacitor” in Journal of Energy Storage.

Chettiannan, B., Srinivasan, A.K., Arumugam, G., Shajahan, S., Abu Haija, M., & Rajendran, R. (2023). “Incorporation of α-MnO₂ Nanoflowers into Zinc-Terephthalate Metal–Organic Frameworks for High-Performance Asymmetric Supercapacitors” in ACS Omega.

Arun Kumar, S., Gowdhaman, A., Balaji, C., Ramesh, R., & Anbarasan, P.M. (2024). “Exploring the potential of two-dimensional NiCo₂O₄ sheets//BiPO₄ flakes as a hybrid supercapacitor device for energy storage application” in Colloids and Surfaces A: Physicochemical and Engineering Aspects.