朱光 纳米材料和设备首席教授
理工学院



联系方式 办公室
Room 424, Sir Peter Mansifeld Building

校园
University of Nottingham Ningbo China

地址
199 Taikang East Road, Ningbo, 315100, China

电话
+86(0)574 8818 0000 (ext. 8755)

邮箱
Guang.Zhu@nottingham.edu.cn



学历
2008/8-2013/5, Georgia Institute of Technology, Materials Science and Technology, PhD.
2004/9-2008/7, Beijing Institute of Chemical Technology, Materials Science and Technology, BS.

个人简介

BiographyDr. Zhu’s research mainly focuses on the fundamentals and applications of functional flexible materials their uses in flexible transducers. He has published 50 first-authored and correspondence-authored research papers on internationally prestigious journals such as Nat. Commun.. Adv. Mater., and Nano Lett. Total publication citations by 11,000 times with average impact factor of 12 and H-index of 51. He has granted with 6 US patents and 25 Chinese patents. His research achievements have been highlighted by the top journals including Science and Nature, and reported by public media such as CNN, Reuters, CCTV, and Chinese Science News.
Working Experiences12/2017-Presence, University of Nottingham Ningbo China, Li Dak Sum Chair Professor.
07/2014-11/2017，Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Sciences, Professor.
06/2013-06/2014，Georgia Institute of Technology, Materials Science and Technology, Postdoctoral Fellow.
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奖项 / 专利
Honors and Awards
2017, International Nanoenergy and Nanosystems Award.
2017, Second Prize of Beijing Science and Technology Award
2017, Innovation Award of China’s Industry-University-Research Cooperation
2016, Scientific Chinese Man of the Year.


发表文章
Selected PublicationsY. J. Fan, X. Li, S. Y. Kuang, L. Zhang, Y. H. Chen, L Liu, K. Zhang, S. W. Ma, F. Liang, T. Wu, Z. L. Wang, G. Zhu*. Highly robust, transparent, and breathable epidermal electrode. ACS Nano, 12, 9326-9332 (2018).
X. J. Zhao, S. Y. Kuang, Z. L. Wang, G. Zhu^*. Highly adaptive solid–liquid interfacing triboelectric nanogenerator for harvesting diverse water wave energy. ACS Nano, 12, 4280-4285 (2018).
X. Y. Wei, X. Wang, S. Y. Kuang, L. Su, H. Y. Li, Y. Wang, C. Pan, Z. L. Wang, G. Zhu*, Dynamic triboelectrification-induced electroluminescence and its use in visualized sensing, Adv. Mater. 28, 6656-6664 (2016).
Y. J. Fan，X. S. Meng, H. Y. Li, S. Y. Kuang，L. Zhang, Y. Wu，Z. L. Wang*,G. Zhu*, Stretchable porous carbon nanotube-elastomer hybrid nanocomposite for harvesting mechanical energy，Adv. Mat.29, 1-8 (2016).
X. S. Meng, Z. L. Wang*,G. Zhu*, Triboelectric-potential-regulated charge transport through p-n junctions for area-scalable conversion of mechanical energy,Adv. Mat.28, 668-676 (2016).
G. Zhu,J. Chen, Q. Jing, T. Zhang & Z. L. Wang*, Radial-arrayed rotary electrification for high-performance triboelectric generator,Nat. Commun.doi: 10.1038/ncomms4426 (2014).


科研项目 / 研究基金
Research Funding
Outstanding Youth Project of Zhejiang Science Foundation, LR19F010001, High-Performance Electret Materials for Environmentally Stable Energy Harvesting, 01/2019-12/2022. Principle Investigator.
National Science Foundation Project, **，Research on Novel Mechanical-Optical Conversion Materials Based on Triboelectrifica017tion and Electroluminescence, 01/2016-12/2019, Principle Investigator.
Beijing Science Foundation Project, **，Research on Novel Electrification-Induced Luminescence by Semiconductors, 01/2016-12/2018，Principle Investigator.