Chao’en Li | Hydrogen Energy | Research Excellance Award

Published on by Award and Honors

Prof. Chao’en Li | Hydrogen Energy | Research Excellance Award

Prof | The University of  Wenzhou University | China

Professor. Chao’en Li is an internationally recognized expert in hydrogen energy, carbon capture, and green fuel technologies. His research emphasizes techno-economic modelling, catalyst development, and energy-efficient processes for CO₂ capture and conversion. He has pioneered innovative approaches integrating low-temperature plasma technology and advanced computational methods to enhance hydrogen production and storage systems. His contributions span renewable energy systems, ammonia-based fuels, and liquid organic hydrogen carriers, addressing critical challenges in sustainable energy transitions. With an outstanding academic profile of 73 publications, 2,752 citations, and an h-index of 28, his work demonstrates strong global impact. His interdisciplinary research connects chemical engineering, materials science, and environmental sustainability, enabling scalable and cost-effective solutions for decarbonization and future clean energy infrastructures.

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Phuet Prasertcharoensuk | Chemical Engineering | Research Excellance Award

Published on by Award and Honors

Assist. Prof. Dr. Phuet Prasertcharoensuk | Chemical Engineering | Research Excellance Award

Lecturer | The University of  Chulalongkorn University | Thailand

Assist. Prof. Dr. Phuet Prasertcharoensuk is an accomplished chemical engineering researcher specializing in sustainable energy technologies, biomass conversion, and hydrogen production. His research emphasizes thermochemical processing, heterogeneous catalysis, and carbon dioxide capture and utilization to support cleaner and more efficient energy systems. With 18 scholarly publications, 299 citations, and an h-index of 10, he has contributed to advancements in biomass gasification, hybrid energy systems, and renewable fuel development. His work also incorporates computational modeling, process integration, and innovative approaches such as cold plasma technologies. Through interdisciplinary research, he aims to improve energy efficiency, reduce environmental impact, and support the transition toward low-carbon and circular energy systems.

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