Liangxu Lin | Energy Storage | Best Researcher Award

Prof Dr. Liangxu Lin | Energy Storage | Best Researcher Award

Professor, Fujian Normal University, China

Liangxu Lin is a distinguished Professor in the field of Material Physics and Chemistry, specializing in materials science and electrochemistry. With a rich educational background and extensive research experience, he has made significant contributions to the development of 2D materials and their applications in energy conversion and storage. His pioneering work in surface energy control and the fabrication of non-layered two-dimensional materials has garnered international recognition, making him a prominent figure in the scientific community.

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Education 🎓

Liangxu Lin completed his Bachelor’s degree in Environmental Engineering from Anhui Polytechnic University, China, before pursuing a Master’s degree in Applied Chemistry at Fujian Normal University. He furthered his academic journey with a PhD in Engineering Materials from the University of Sheffield, UK, where he was awarded the inaugural Mike Sellars Medal for his outstanding research contributions.

Experience 💼

With over a decade of experience in academia and industry, Liangxu Lin has held various prestigious positions. He served as a Research Fellow at the University of Exeter, UK, before joining Wuhan University of Science and Technology as a Professor. His international experience includes being a Vice-Chancellor Research Fellow at the University of Wollongong, Australia, where he conducted groundbreaking research in the field of intelligent polymers.

Research Interests 🔬

Liangxu Lin’s research interests revolve around material surfaces and interfaces, electrochemical catalysis, and energy devices. He specializes in the preparation of layered and non-layered two-dimensional materials and explores their applications in electrochemical processes, particularly in energy conversion and storage. His innovative approaches have led to significant advancements in the field, contributing to the development of sustainable energy technologies.

Awards 🏆

Throughout his career, Liangxu Lin has been recognized with numerous awards and fellowships for his exceptional contributions to science and technology. Notable accolades include the “Chutian Scholar” and “Hundred Talents Program” awards in China, as well as the prestigious Vice-Chancellor Fellowship at the University of Wollongong, Australia. His groundbreaking research has earned him international acclaim, cementing his status as a leader in his field.

Publications Top Notes

  1. Angew. Chem. Int. Ed. (2023) – L. Lin et al., Lattice distortion and H‐passivation in pure carbon electrocatalysts for efficient and stable two‐electron oxygen reduction to H2O2. Read more
  2. Adv. Energy Mater. (2021) – L. Lin et al., Engineering carbon materials for electrochemical oxygen reduction reactions. Read more
  3. Matter (2021) – L. Lin et al., Unzipping chemical bonds of non-layered bulk structures to form ultrathin nanocrystals. Read more
  4. Adv. Energy Mater. (2020) – L. Lin et al., Engineering 2D materials: a viable pathway for improved electrochemical energy storage. Read more
  5. Adv. Energy Mater. (2020) – L. Lin et al., Engineered 2D transition metal dichalcogenides-a vision of viable hydrogen evolution reaction catalysis. Read more
  6. Nano Energy (2020) – L. Fan et al., Controllable S-vacancies of monolayered Mo–S nanocrystals for highly harvesting lithium storage. Read more
  7. Energy Storage Mater. (2019) – L. Lin et al., Two-dimensional transition metal dichalcogenides in supercapacitors and secondary batteries. Read more
  8. Chem. Eng. J. (2018) – X. Zheng et al., A strong and compressible three-dimensional graphene/polyurushiol composite for efficient water cleanup. Read more
  9. Nano Energy (2016) – L. Lin et al., A photocatalyst of sulphur depleted monolayered molybdenum sulfide nanocrystals for dye degradation and hydrogen evolution reaction. Read more
  10. Appl. Catal. B-Environ. (2017) – L. Lin et al., Effective surface disorder engineering of metal oxide nanocrystals for improved photocatalysis. Read more