Assoc Prof Dr. Jianmin Li | Solar cell | Best Researcher Award
Assoc Prof Dr. Jianmin Li, Wuhan University, China
Assoc. Prof. Dr. Jianmin Li ππ¬ is an accomplished academic at Wuhan University, specializing in thin-film solar cells since February 2023. He previously served as an associate research fellow at the same institution and completed his postdoctoral fellowship at The Chinese University of Hong Kong. His research focuses on CIGS and antimony-based thin-film materials, achieving significant breakthroughs in solar cell efficiency. Dr. Li has published extensively, including high-impact articles in Energy & Environmental Science and Advanced Materials, and holds multiple patents. He is also a member of the China Renewable Energy Society and serves as a Topic Editor for Energies magazine. ππ
Publication profile
Education
Professional Background
Assoc. Prof. Dr. Jianmin Li is an accomplished associate professor and master tutor at the School of Physical Science and Technology at Wuhan University. As a member of the China Renewable Energy Society, he specializes in the research of inorganic thin-film materials and solar cells, particularly CIGS and antimony-based materials. His recent breakthroughs in the field have set new records for efficiency, notably achieving 10.7% for Sbβ(S, Se)β solar cells in November 2021 and 10.57% for pure Se SbβSeβ batteries in October 2022. ππΏ
Research Contributions
Dr. Li has presided over and contributed to numerous projects, including funding from the National Natural Science Foundation of China and the Hubei Natural Science Foundation. His research output is impressive, with over 70 published papers in prestigious journals such as Energy & Environmental Science, Advanced Materials, and Nano Energy. Additionally, he has applied for seven Chinese patents, with three already authorized. ππ
Publication Top Notes
- A fast chemical approach towards SbβSβ film with a large grain size for high-performance planar heterojunction solar cells π (Cited by: 172, 2017)
- Regulating Energy Band Alignment via Alkaline Metal Fluoride Assisted Solution PostβTreatment Enabling Sbβ(S, Se)β Solar Cells with 10.7% Efficiency π (Cited by: 152, 2022)
- Regulating Deposition Kinetics via A Novel Additive-assisted Chemical Bath Deposition Technology Enables 10.57%-efficient SbβSeβ Solar Cells π (Cited by: 119, 2022)
- A Novel Multi-sulfur Source Collaborative Chemical Bath Deposition Technology Enables 8%-efficiency SbβSβ Planar Solar Cells π (Cited by: 110, 2022)
- Seleniumβgraded Sbβ(SβββSeβ)β for planar heterojunction solar cell delivering a certified power conversion efficiency of 5.71% π (Cited by: 95, 2017)
- CuβSnSβ solar cells fabricated by chemical bath depositionβannealing of SnS/Cu stacked layers π (Cited by: 73, 2016)
- Enhancing photocurrent of Cu(In, Ga)Seβ solar cells with actively controlled Ga grading in the absorber layer π (Cited by: 52, 2019)
- Highly efficient wide-band-gap perovskite solar cells fabricated by sequential deposition method π (Cited by: 43, 2021)
- Zinc-based Electron Transport Materials for Over 9.6%-Efficient S-rich Sbβ(S, Se)β Solar Cells π (Cited by: 43, 2021)
- Highly oriented GeSe thin film: self-assembly growth via the sandwiching post-annealing treatment and its solar cell performance π (Cited by: 43, 2019)
Conclusion