Ram Ji Tripathi | Solar Desalination | Research Excellence Award

Published on by Research Chemistry Awards

Dr. Ram Ji Tripathi | Solar Desalination | Research Excellence Award

Rajkiya Engineering College, Banda, U.P | India

Dr. Ram Ji Tripathi is an accomplished academic and researcher in Mechanical and Thermal Engineering, specializing in energy-efficient cooling technologies and sustainable HVAC systems. He currently serves as an Assistant Professor at Rajkiya Engineering College, Banda, Uttar Pradesh, after completing his doctoral studies as a full-time Research Scholar cum Teaching Fellow at Madan Mohan Malaviya University of Technology (NIRF-84 ranked). His academic foundation includes a Ph.D. in Thermal Engineering, an M.Tech in Mechanical Engineering with strong academic performance, and a B.Tech in Mechanical Engineering, complemented by earlier schooling in Uttar Pradesh. Dr. Tripathi has accumulated diverse teaching and academic experience through multiple Assistant Professor roles at reputed engineering institutions, contributing to undergraduate and postgraduate education. His doctoral research focused on the performance evaluation of solar-driven indirect evaporative cooling systems for HVAC applications, while his master’s and bachelor’s projects addressed desiccant cooling and waste-energy-based automobile air-conditioning, respectively. His research interests span HVAC systems, evaporative and desiccant cooling, thermal energy storage, nanomaterials and nanofluids, combined cooling-heating-power systems, and comprehensive energy, exergy, economic, and environmental analyses. Having successfully earned his Ph.D., he continues to advance sustainable thermal systems research, integrating academic rigor with practical energy solutions for future-ready engineering applications.

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Featured Publications

Performance assessment of solar-driven indirect evaporative cooling with a novel wet channel: An experimental study

– Journal of Building Engineering, Elsevier, 2023, Vol. 78, 107674
A holistic approach for solar-driven HVAC evaporative cooling system: Comparative study of dry and wet channel

– Journal of Building Engineering, Elsevier, 2024, Vol. 83, 108465
Prediction and optimization of wet bulb efficiency in solar energy-based novel evaporative cooling system: Response surface method approach

– Journal of Thermal Science and Engineering Applications, 2024, Vol. 16(12), 121005
Experimental investigation on a novel multi-vent dry-channel integrated solar-driven indirect evaporative cooler

– Applied Thermal Engineering, Pergamon, 2025, Vol. 268, 125888
Exergo-enviro-economic analyses of solar energy based novel air cooling system

– Applied Thermal Engineering, Pergamon, 2024, Vol. 257, 124389

Opeyemi Akanbi | Electroanalytical Methods | Research Excellence Award

Published on by Research Chemistry Awards

Mr. Opeyemi Akanbi | Electroanalytical Methods | Research Excellence Award

 University of Massachusetts Lowell | United States

Mr. Opeyemi Akanbi is a dedicated PhD Candidate in Physics and Applied Physics at the University of Massachusetts Lowell, where he focuses on advanced research at the intersection of materials science, transport phenomena, and functional textile engineering. With academic training that spans physics, materials science, and applied engineering, he has gained diverse experience working on optical strain sensors, humidity-control textiles, electrokinetic systems, and functional polymers. His current research centers on the design and optimization of low-power electroosmotic pumps and textile-integrated microfluidic platforms aimed at improving moisture and sweat management in wearable technologies. Combining experimental device fabrication with multiphysics modeling of ion transport, fluid flow, and heat transfer, he advances innovative solutions for smart garments, personal comfort enhancement, and healthcare monitoring applications. His work reflects strong interests in electroosmotic flow, soft-material transport behavior, photonics, and the integration of microfluidic architectures into flexible substrates. As an active member of leading scientific communities such as ACS, MRS, and IEEE, he consistently engages in interdisciplinary research and academic collaboration. He has contributed to impactful research outputs and received recognition for innovation in functional textile development. He aims to continue developing science-driven technologies that bridge physics, materials engineering, and wearable device innovation.

Profiles: Orcid | Google Scholar

Featured Publications

Hutchins, A., Acharya, S., Akanbi, O., Doan, K., Pinninti, P., Isherwood, K., Rosenberg, Z., Filocamo, S., Zhang, Y., & Guo, W. (2025). “Low Power Textile Integrated Electroosmosis Pump for Active Moisture and Sweat Management.” iScience.

Akanbi, O.S., Shannon, J.P., Delhommelle, J., & Desgranges, C. (2025). “Synergizing Driven Quantum Dynamics, AI, and Quantum Computing for Next-Gen Materials Science.” The Journal of Physical Chemistry Letters.

Hutchins, A., Reens, D., Kharas, D., West, G.N., Sorace-Agaskar, C., Chiaverini, J., McConnell, R., Swint, R., Akanbi, O., Harding, S., et al. (2024). “Fiber-to-Chip Packaging With Robust Fiber Fusion Splicing for Low-Temperature Applications.” IEEE Photonics Technology Letters.

Balogun, S.W., Oyeshola, H.O., Ajani, A.S., James, O.O., Awodele, M.K., Adewumi, H.K., Àlàgbé, G.A., Olabisi, O., Akanbi, O.S., Ojeniyi, F.A., et al. (2024). “Synthesis, characterization, and optoelectronic properties of zinc oxide nanoparticles: A precursor as electron transport layer.” Heliyon.

Akanbi, O.S., Usman, H.A., Abass, G.F., Oni, K.E., Ige, A.S., Odunaro, B.P., Ojo, I.J., Oladejo, J.A., Ajani, H.O., Musa, A., et al. (2023). “The Advent of Wide Bandgap Green-Synthesized Copper Zinc Tin Sulfide Nanoparticles for Applications in Optical and Electronic Devices.” Journal of Materials Science and Chemical Engineering.

Rimamnya, N.D., Akanbi, O.S., Bunmi, D.C., Abass, G.F., Olaniyan, J.A., Ige, A.S., Moyofoluwa, O.O., Kolawole, B.T., et al. (2023). “Evolution of Carbon Nanotubes, Their Methods, and Application as Reinforcements in Polymer Nanocomposites: A Review.” Journal of Advanced Mechanical Engineering Applications.

Akanbi, O., Abass, G., Ige, A., Nyatse, D., Oyeshola, H., Abba, H., Felix, O., Oni, K., Ayotunde, A., Ajao, J., et al. (2023). “Research Advances on 2D Mxenes for Photovoltaic Applications.” Journal of Advanced Mechanical Engineering Applications.

Prof. Alimorad Rashidi | Nanotechnology | Best Researcher Award

Published on by Research Chemistry Awards

Prof. Alimorad Rashidi | Nanotechnology | Best Researcher Award

Research Institute of petreolum Industry | Iran

Prof. Alimorad Rashidi is a distinguished chemical engineer with a Ph.D. in Chemical Engineering from Tehran University, Iran. He also holds an M.Sc. in Chemical Engineering from Tehran University and a B.Sc. from Petroleum University of Technology, Ahwas. With extensive professional experience, Prof. Rashidi specializes in the application and mass production of carbon nanostructures, including carbon nanotubes, graphene, nanoporous carbon, and nanofluids for upstream oil and gas processes such as enhanced oil recovery and drilling fluids. His work spans hydrogen production, CO2 adsorption and separation, natural gas storage, desulfurization under reservoir conditions, smart adsorbents, and nano-catalysis. Prof. Rashidi has contributed significantly to the development of nanostructured materials, nano-catalysts, and nanofluids for heat transfer, as well as 2D nanomaterials and metal oxide nanostructures. His research integrates adsorption technology, nanofluid rheology, catalytic reactions, and innovative fuel technologies, advancing both academic and industrial applications. He has extensive teaching experience in heat transfer, fluid mechanics, mass transfer, nanostructure materials, and their applications in the petroleum industry. Recognized nationally and internationally, he has received numerous awards, including UNIDO Kharazmi International Award, Allameh Tabatabaei Award, multiple top nanotechnology researcher honors in Iran, and recognition among the top 1% of scientists worldwide. Prof. Rashidi continues to drive innovation in chemical engineering and nanotechnology.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Sharafinia, S.; Saadati Ardestani, N.; Rashidi, A.; Abbasy, F.; Eskandari Sabzi, P. (2025). CO2/N2 selectivity with high efficiency using new flexible coordinate organic polymer-based core–shell. RSC Advances.

Mir, S.; Rashidi, A.; Naderifar, A.; Seif, A.; Silvestrelli, P. L.; Alonso, J. A. (2025). Development of a smart plasma-treated nano-filter using carbon nitride nanostructures for oil–water emulsion separation: experimental and theoretical studies. Journal of Materials Chemistry A.

Sirati Gohari, M.; Rezaei, S. A.; Rashidi, A.; Javadpour, S.; Ebadzadeh, T. (2025). MXenes and hydride nanostructures: Fundamental, properties, surface modification, properties, and application. In: Book Chapter.

Zafari, T.; Sharafinia, S.; Rashidi, A.; Esrafili, M. D.; Keyvani, B.; Mousavi, M. (2025). Optimized adsorption of volatile organic compounds on graphene oxide and nanoporous graphene activated with ZnCl2: a combined experimental and computational study. Nanoscale Advances.

Mousavi, R.; Fazlinezhad, A.; Fallah Shojaei, A.; Rashidi, A.; Fattahi, M. (2025-04-23). Evaluation of Vanadium Oxide Nanocatalysts over Graphene for Propylene Production Through Oxidative Propane Dehydrogenations. Catalysts.

Nouri, M.; Sadeghi, M. T.; Rashidi, A.; Norouzbeigi, R. (2024-05). Hydrothermally synthetized WO3 coated stainless steel mesh for oil–water separation purposes. Journal of Petroleum Exploration and Production Technology.

Mir, S.; Rashidi, A.; Naderifar, A.; Esrafili, M. D. (2023-12). An investigation of the effects of porosity and N-defects of 2D CxNy membranes on the wettability behavior and separation capability of water and oil mixtures. Colloids and Surfaces A: Physicochemical and Engineering Aspects.