Prof. Jin Wang, Zhejiang Normal University, China.
Jin Wangย
ย is a distinguished professor at the College of Chemistry and Materials Science, Zhejiang Normal University. He earned his Ph.D. from East China University of Science and Technology (2011โ2016), focusing on
quantum dot-sensitized solar cells under Prof. Xinhua Zhong’s mentorship.ย
ย After completing his post-doctoral research at the University of Science and Technology of China (2016โ2017) with Prof. Yujie Xiong, Jin Wang joined Zhejiang Normal University in 2017.ย
ย His research explores cutting-edge techniques in quantum dots and solar-driven COโ conversion. He has received prestigious accolades, including the National Outstanding Graduate Award and Cheng Siwei Presidential Fellowship.ย
Publication profile
Education and Experience
- ย Ph.D. in Chemistryย (2011โ2016) from East China University of Science and Technology
ย Thesis: โWider Absorption Range and High Electron Injection Efficiency Sensitizers for Quantum Dot Sensitized Solar Cellsโ
ย Advisor: Prof. Dr. Xinhua Zhong (Humboldt Research Fellow)
ย Post-Doctoral Research Fellowย (2016โ2017) at the University of Science and Technology of China with Prof. Yujie Xiong
ย Professorย (2017โpresent) at Zhejiang Normal University
Suitability For The Award
Prof. Jin Wang, a distinguished scientist in the field of chemistry and materials science, is a leading figure in advancing quantum dot sensitized solar cells and sustainable energy solutions. Currently serving as a professor at Zhejiang Normal University, Prof. Wang’s pioneering research focuses on enhancing solar energy efficiency through innovative sensitizer designs and CO2 photoreduction. His exceptional contributions to the scientific community make him a deserving recipient of the Best Researcher Award.
Professional Developmentย
Jin Wang’s professional journey is characterized by groundbreaking advancements in quantum dot applications and renewable energy.ย
ย He leads projects funded by the National Natural Science Foundation of China and the Zhejiang Provincial Science Foundation, targeting COโ photoreduction and solar-driven fuel production.ย
ย His expertise spans interface manipulation in quantum dots and transition metal ions, aiming to achieve high-efficiency energy conversions.ย
ย As a professor at Zhejiang Normal University, he combines innovative research with mentorship, inspiring the next generation of chemists.ย
ย Prof. Wangโs contributions significantly enhance the potential for sustainable energy solutions worldwide.ย
Research Focusย
Jin Wang specializes in the development and application of quantum dot technologies for renewable energy.ย
ย His research focuses on enhancing quantum dot-sensitized
solar cells through interface manipulation with transition metal ions, enabling efficient COโ photoreduction.ย
ย He is passionate about addressing global energy challenges by advancing solar-driven fuel production and creating innovative solutions for carbon neutrality.ย
ย His projects emphasize materials chemistry, nanostructures, and catalysis, fostering groundbreaking discoveries in sustainable energy systems.ย
ย Prof. Wang’s research aims to bridge the gap between fundamental science and practical applications, contributing to the global transition to clean energy.ย
Awards and Honors
ย 2014: National Outstanding Graduate Award, Chinese Ministry of Education
ย 2013: Cheng Siwei Presidential Fellowship, Summa Cum Laude, East China University of Science and Technology (ECUST)
ย 2013: 2nd Prize at the 17th Academic Conference, ECUST
Publications Top Notes
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High-efficiency โgreenโ quantum dot solar cells (2014) โ Cited by 664ย
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Coordination chemistry in the design of heterogeneous photocatalysts (2017) โ Cited by 544ย 
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Core/shell colloidal quantum dot exciplex states for highly efficient quantum-dot-sensitized solar cells (2013) โ Cited by 468ย
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Near Infrared Absorption of CdSexTe1โx Alloyed Quantum Dot Sensitized Solar Cells with More than 6% Efficiency and High Stability (2013) โ Cited by 439ย 
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Boosting power conversion efficiencies of quantum-dot-sensitized solar cells beyond 8% by recombination control (2015) โ Cited by 435ย 
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Enabling VisibleโLightโDriven Selective CO2 Reduction by Doping Quantum Dots: Trapping Electrons and Suppressing H2 Evolution (2018) โ Cited by 297ย 