Jialin Li | Environmental Science | Best Researcher Award

Published on by Research Hypothesis

Mr. Jialin Li | Environmental Science | Best Researcher Award

Doctor | Fudan university | China

Mr. Jialin Li is an accomplished researcher and Doctor at Fudan University, specializing in the preparation, functionalization, and application of advanced carbon-based porous materials for hydrogen storage, energy storage, and carbon dioxide capture. His educational background includes a master’s and doctorate in chemical engineering and materials science, where his primary focus was on nano-pore interface micro-environment regulation, design of multi-level nano-pore structures, and surface chemical modification of functional porous carbon fibers, carbon nanofibers, carbon aerogels, and porous carbon materials. Professionally, Mr. Jialin Li has been involved in significant research projects such as the coupling regulation of ultra-fine pores and hydrogen-bond microenvironment of polyacrylonitrile porous carbon nanofibers and investigating hydrogen adsorption mechanisms under confined conditions. He has made valuable contributions to material design strategies for energy applications and has played a key role in translating research findings into practical solutions, including patented technologies for preparing biomass textile fabric electrodes and pre-oxidized fiber fabric electrodes for flow batteries. As a dedicated researcher, Mr. Jialin Li has authored 14 documents, 124 citations, 6 h-index, which highlights his consistent research output and influence in the scientific community. His research has been widely published in reputable international journals, including the Chemical Engineering Journal, Journal of Colloid and Interface Science, ACS Nano, and International Journal of Hydrogen Energy, all indexed in Scopus and SCI, reflecting his ability to contribute to high-quality peer-reviewed publications. Mr. Jialin Li’s research interests include developing new porous carbon materials with ultra-high specific surface areas, improving gas adsorption performance at ambient conditions, and creating novel strategies for hydrogen and carbon dioxide storage. His research skills span advanced material synthesis, nano-structuring, micro-environment modulation, adsorption mechanism analysis, and interface chemical engineering, combined with hands-on experience in experimental design and data interpretation. He is also actively engaged in collaborative research that bridges chemistry, materials science, and environmental engineering, reflecting his interdisciplinary approach. Beyond his technical expertise, Mr. Jialin Li has contributed to mentoring younger researchers, fostering collaboration within his team, and supporting sustainable energy initiatives. His honors include recognition for scientific excellence through peer-reviewed publications, contribution to multiple high-impact studies, and the development of patented solutions that support energy sustainability.

Profile:  Scopus

Featured Publications

Li, J., Wang, Y., Zhang, Y., Zhao, W., Bao, W., Duan, Y., Yu, J., Zhu, B., & Qiao, K. (2024). Dipole-induced hydrogen bonds enhanced P/O co-doped Lyocell-based porous carbon fiber cloth for hydrogen storage under ambient pressure. Chemical Engineering Journal, 490, 151633. Citations: 35

Li, J., Duan, Y., Wang, Y., Zhang, Y., Zhou, J., Zhao, W., Yu, J., Zhu, B., & Qiao, K. (2024). Microenvironment modulation of interpenetrating-type hierarchical porous foam carbon by mild-homogeneous activation for H₂ storage and CO₂ capture under ambient pressure. Journal of Colloid and Interface Science, 675, 783–791. Citations: 28

Yu, J., Li, J., Chen, F., Chi, C., Zhang, W., Bao, W., Zhao, X., Zhu, B., & Qiao, K. (2024). Micro-nano scale synchronous “carving” of viscose fiber in activation process for atmospheric hydrogen storage. International Journal of Hydrogen Energy, 63, 411–417. Citations: 19

Zhang, Y., Zhu, B., Zhao, S., Zhao, W., Zhou, M., Sun, Y., Qiao, K., Liu, J., Zhou, J., & Li, J. (2024). In situ synthesis of self-assembly supramolecular crystal seeds within continuous carbon nanofibers for improved fiber graphitic structure. ACS Nano, 18(17), 11360–11374. Citations: 22

Bao, W., Yu, J., Chen, F., Du, H., Zhang, W., Yan, S., Lin, T., Li, J., Zhao, X., & Zhu, B. (2023). Controllability construction and structural regulation of metal-organic frameworks for hydrogen storage at ambient condition: A review. International Journal of Hydrogen Energy, 48(92), 36010–36034. Citations: 20

 

 

Alexander Gusev | Energy and Sustainability | Best Researcher Award

Published on by Research Hypothesis

Prof. Alexander Gusev | Energy and Sustainability | Best Researcher Award

Scientific Director | Fermaltech Montenegro DOO | Montenegro

Prof. Alexander Gusev is a distinguished researcher whose education, professional experience, research interests, skills, awards and honors combine to make him a leading figure in hydrogen energy, cryogenic technology, and alternative energy systems; he holds advanced degrees in engineering mechanics, solid-state physics, and chemistry, having completed his postgraduate thesis on cryogenic vacuum systems for hydrogen refueling complexes under academic supervision, and trained extensively in physics and mathematics at top institutions; his professional career includes heading the Department of Alternative Energy and Ecology in Germany, leadership roles at STC “TATA,” the Institute of Hydrogen Economics, and Fermaltech, as well as membership and leadership in international standards bodies such as ISO/TC 197 on Hydrogen Technologies, and the European Academy of Natural Sciences; his research interests focus on hydrogen production, storage and safety (including hydrogen on-board storage, sensors, physisorption, nano-catalysis), transport of large energy flows, electrochemical systems, molecular hydrogen adsorption, cryogenic and vacuum technologies, and environmentally friendly energy systems; his research skills encompass advanced materials synthesis, catalyst characterization, hydrogen safety, cryogenic engineering, thermodynamics, reaction kinetics, nano-material fabrication, heterogeneous catalysis and material testing; he has authored 10 documents, 484 Citations, 10 h-index, contributing over 500 scientific works including patents, invention disclosures, and journal and conference publications; among his awards and honors are inclusion in the global Top-100 most cited scientists in Energetics (E-Library ranking), recipient of the K. E. Tsiolkovsky Medal for contribution to cosmonautics, membership as Academician in European and Serbian academies of natural sciences and science & arts, state recognitions in nuclear and energy sectors; given his broad leadership, international collaboration, standard-setting roles, and contributions to hydrogen safety and alternative energy, Prof. Alexander Gusev’s future holds strong potential to extend his impact via the publication of more work in high-impact Q1 journals, mentorship of upcoming scientists, participation in key editorial and keynote roles, and leading large interdisciplinary international projects that push forward sustainable hydrogen energy and ecological solutions.

Profile:  Scopus | ORCID | Google Scholar

Featured Publications

  1. Economic Aspects of Nuclear and Hydrogen Energy in the World and Russia — 2020; 133 citations

  2. Economics of Secondary Renewable Energy Sources with Hydrogen Generation — 2019; 73 citations

  3. Algorithm for Optimal Pairing of RES and Hydrogen Energy Storage Systems — 2021; 55 citations

  4. Hydrogen Production by Low-Temperature Plasma Decomposition of Liquids — 2017; 55 citations

  5. Thermodynamic Peculiarities of Low-Temperature Regeneration of Cryosorption Devices in Heat-Insulation Cavities of Hydrogenous Cryogenic Tanks — 2001; 39 citations

  6. Cleaning System for Corrosive Gases and Hydrogen — 2009; 37 citations