Prof. Haiyan Leng | Hydrogen Storage Materials | Best Researcher Award

Published on by High Energy Physics

Prof. Haiyan Leng | Hydrogen Storage Materials | Best Researcher Award

Shanghai University | China

Prof. Haiyan Leng, a professor and doctoral supervisor at Shanghai University, specializes in lightweight hydrogen storage materials and high-capacity hydrogen storage device design. She has led and participated in multiple national and enterprise-funded projects, published over 70 SCI papers in top journals, and holds more than ten domestic and international patents. Her recent highly cited work in the Journal of Rare Earths investigates the influence of La and Ce rare earth doping on the hydrogen absorption properties of Zr7V5Fe alloy. The study revealed that rare earth doping enhances activation with shorter incubation periods and improves the transition of Zr and V from oxidized to metallic states during heating, leading to better hydrogen absorption performance. X-ray diffraction showed reduced cell volume of ZrV2 and α-Zr phases, raising plateau pressure, while kinetic analysis indicated coarser α-Zr phases and larger particle sizes, slightly reducing hydrogen absorption kinetics. Overall, the research provides valuable technical guidance for optimizing zirconium-based alloys for hydrogen storage applications.

Profile:  Scopus 

Featured Publications

"Influence of rare earth doping on hydrogen absorption properties of Zr7V5Fe alloy"

"Multivalent Ti/Nb catalysts with oxygen vacancies: Bridging electron transfer pathways to enhance MgH2 hydrogen desorption property"

"Effect of La doping on tritium storage properties of Ti-based alloys"

"The relationship between thermal management methods and hydrogen storage performance of the metal hydride tank"

"Performance improvement of magnesium-based hydrogen storage tanks by using carbon nanotubes addition and finned heat exchanger: Numerical simulation and experimental verification"

Dr. Svetlana Proskurina | Energy Technology | Best Researcher Award

Published on by High Energy Physics

Dr. Svetlana Proskurina | Energy Technology | Best Researcher Award

 LUT University | Finland

The candidate holds dual Master’s degrees in Technology and Bioenergy from Russia and Finland (2012), a Ph.D. in Bioenergy from LUT University (2018), and pedagogical qualifications from JAMK University of Applied Sciences (2020). Currently pursuing a Bachelor of Social Services at Diaconia University, Finland, they have secured significant research funding, including scholarships from LUT University and Fortum Foundation, and an Erasmus grant. Their key research contributions focus on international biomass trade and bioenergy value chains under IEA Bioenergy Task 40, with publications cited in the IPCC’s Sixth Assessment Report. They have supervised Master’s theses, supported colleagues in securing grants, and served as a scientific committee member for major biomass conferences. With over a decade of teaching experience in bioenergy and energy systems at LUT University, complemented by extensive pedagogical training, they demonstrate strong academic leadership. Their achievements include multiple student awards for excellence in biomass research at international conferences (2017, 2023), recognition in clean energy challenges, and invited talks at global energy events. Active in scientific communities such as the World Bioenergy Association and MDPI’s Applied Sciences editorial board, they have contributed to international collaboration through research visits, exchanges, and speaking engagements. Overall, their profile reflects strong expertise in bioenergy, international recognition, and impactful contributions to science, teaching, and sustainable energy transitions.

Profile:  Scopus | Google Scholar | ORCID

Featured Publications

"The circular bioeconomy: a driver for system integration"

"Perspectives on challenges to bioenergy use in the EU"

"Bioenergy perspectives in the EU regions: Carbon neutrality pathway"

"Expectations for bioenergy considering carbon neutrality targets in the EU"

"How can solid biomass contribute to the EU’s renewable energy targets in 2020, 2030 and what are the GHG drivers and safeguards in energy-and forestry sectors?"