李昕明,男,博士,華南師範大學研究員。
基本介紹
個人經歷,研究方向,榮譽獎項,學術成果,
個人經歷
工作經歷:
2019-至今華南師範大學信息光電子科技學院研究員
2017-2019日本國立物質材料研究機構外國人特別研究員(JSPS Fellow)
2017香港理工大學套用物理系研究人員
2016-2017香港中文大學電子工程系博士後
2013-2016國家納米科學中心助理研究員
教育背景:
2007-2013清華大學材料學院博士
(2012.7日本精工株式會社綜合研究開發中心項目實習)
(2011.9-2012.3美國麻省理工大學EECS博士生聯合培養)
2003-2007清華大學機械工程系本科
學術兼職:
中國生物醫學工程學會高級會員
SCI收錄期刊Frontiers in Physics (Optics and Photonics)副主編(Associate Editor)
SCI收錄期刊Sensors (Biomedical SensorsSection)編委會成員(Editorial Board)
英國物理學會(IOP)期刊Nano Express創刊編委會成員(Founding Editorial Board)
70餘份SCI收錄英文期刊學術審稿人
研究方向
光電信息器件,智慧型感測與探測技術,可穿戴系統與套用
榮譽獎項
2019年Most citied article in Applied Physics Reviews (美國物理聯合會AIP出版期刊)
2017年日本學術振興會JSPS Fellow
2015年教育部高等學校科學研究優秀成果獎自然科學獎二等獎(排名第三)
2013年北京市普通高等學校優秀畢業生
2013年清華大學研究生學術新秀獎
2012年通用電氣GE基金會科技創新獎三等獎
2010年教育部博士研究生學術新人獎
2010年清華大學“一二·九”優秀輔導員獎
2008年首都大學生社會實踐先進工作者
學術成果
科研項目:
5.華南師範大學青年拔尖人才科研啟動經費,2019年-2023年,主持
4.華南師範大學物理學部青年培育基金,2019年,主持
3.日本學術振興會特別研究員獎勵費,2017年-2019年,共同主持
2.中科院先導科技專項子課題,2015年,項目骨幹
1.國家自然科學基金青年項目,2015年-2017年,主持
近年發表的主要論文和論著:
在國際主流學術期刊發表論文80餘篇,被引用5000餘次,其中單篇文章最高引用720餘次,H因子為40。其中,9篇文章入選為期刊封面(封底),11篇文章入選ESI高被引論文。近年代表性論文如下:
(1)Y.Yang#, X. Yang#, L. Liang, Y. Gao, H. Cheng,X. Li, M. Zou, A. Cao, R. Ma, Q. Yuan*, X. Duan*.Large-area graphene-nanomesh/carbon-nanotube hybrid membranes for ionic and molecular nanofiltration.Science,2019
(2)H. Li#,X. Li#, J. Park, K. Kim, Y. Lee, J. Xu*. Restoring the Photovoltaic Effect via Interfacial h-BN Insertion in Graphene-based Heterojunctions towards Self-Powered High-Detectivity Two-dimensional Photodetectors.Nano Energy.2019
(3)H. Xu, X. Wu*,X. Li*,C. Luo, F. Liang, E. Orignac, J. Zhang, J. Chu. Properties of graphene-metal contacts probed by Raman spectroscopy.Carbon, 2018
(4)G.Zhao#,X. Li#, M. Huang#, Z. Zhen, Y. Zhong, Q. Chen, X. Zhao, Y. He, R. Hu, T. Yang, R. Zhang, C. Li, J. Kong, J. Xu,* R. Ruoff*, H. Zhu*. The Physics and Chemistry of Graphene-on-Surfaces.Chemical Society Reviews,2017
(5)Z. Chen,X. Li*, J. Wang, L. Tao, M. Long, S. Liang, L. Ang, C. Shu, H. Tsang,J. Xu*.Synergistic Effects of Plasmonics and Electron Trapping in Graphene Short-Wave Infrared Photodetectors with Ultrahigh Responsivity.ACS Nano, 2017
(6)Z. Chen#, Z. Wang#,X. Li*, Y. Lin, N. Luo, M. Long, N. Zhao, J. Xu*. Flexible Piezoelectric-Induced Pressure Sensors for Static Measurements Based on Nanowire/Graphene Heterostructures.ACS Nano,2017
(7)X. Li#*, L. Tao#, Z. Chen#, H. Fang, X. Li, X. Wang, J. Xu*, H. Zhu*. Graphene andRelatedTwo-Dimensional Materials:Structure-Property Relationships for Electronics and Optoelectronics.Applied Physics Reviews2017
(8)H. Sun,X. Li*, Y. Li, G. Chen, Z. Liu, F. Alam, D. Dai, L. Li, L. Tao, J. Xu, Y. Fang, X. Li, P. Zhao, N. Jiang, D. Chen*, C. Lin*. High-Quality Monolithic Graphene Films via Laterally Stitched Growth and Structural Repair of Isolated Flakes for Transparent Electronics.Chemistry of Materials,2017,
(9)L. Tao, Z. Chen,X. Li*, K. Yan, J. Xu*. Hybrid Graphene PhotoconductorwithInterface Engineeringtoward Fast Photoresponse and High Responsivity.npj2D Materials and Application.2017
(10)S. Liu, X. Wu*, D. Zhang, C. Guo, P. Wang, W. Hu*,X. Li*,X. Zhou, H. Xu, C. Luo, J. Zhang, J. Chu. Ultrafast Dynamic Pressure Sensors Based on Graphene Hybrid Structure.ACS Applied Materials&Interfaces, 2017
(11)P. Wu#,X. Li#,C. Zhang*, X. Chen, S. Lin, H. Sun, C. Lin, H. Zhu*, J. Luo*. Self-Assembled Graphene Film as Low Friction Solid Lubricant in Macroscale Contact.ACS Applied Materials&Interfaces,2017
(12)X. Li#, T. Yang#, Y. Yang#, J. Zhu, L. Li, F. Alam, X. Li, K. Wang, H. Cheng, C. Lin*, Y. Fang*, H. Zhu*.Large-Area Ultrathin Graphene Films by Single-Step Marangoni Self-Assembly for Highly Sensitive Strain Sensing Application.Advanced Functional Materials, 2016
(13)J. Shi#,X. Li#*,H. Cheng, Z. Liu, L. Zhao, T. Yang, Z. Dai, Z. Cheng, E. Shi, L. Yang, Z. Zhang, A. Cao, H. Zhu*, Y. Fang*. Graphene Reinforced Carbon Nanotube Networks for Wearable Strain Sensors.Advanced Functional Materials,2016
(14)T. Yang#,X. Li#, X. Jiang, S. Lin, J. Lao,J.Shi, Z. Zhen, Z. Li*, H. Zhu*. Structural Engineering of Gold Thin Films withChannel Cracksfor Ultrasensitive Strain Sensing.Materials Horizons, 2016,3, 248-255.
(15)X. Li#*,M. Zhu#, M. Du, Z. Lv, L. Zhang, Y. Li, Y. Yang, T. Yang, X. Li, K. Wang, H. Zhu*, Y. Fang*. High Detectivity Graphene-Silicon Heterojunction Photodetector.Small,2016
(16)L. Li#,X. Li#*,M. Du#, Y. Guo, Y. Li, H. Li, Y. Yang, F. Alam, C. Lin, Y. Fang*. Solid-Phase Coalescence of Electrochemically Exfoliated Graphene Flakes into a Continuous Film on Copper.Chemistry of Materials.,2016
(17)X. Li*, H. Zhu*. The Graphene-Semiconductor Schottky Junction.Physics Today, 2016, 69 (9), 46-51.
(18)X. Li*, Z. Lv, H. Zhu*. Carbon/Silicon Heterojunction Solar Cells: State of the Art and Prospects.Advanced Materials, 2015
(19)Y. Fang,X. Li*, Y. Fang*. Organic Bioelectronics for Neural Interfaces.Journal of Materials ChemistryC,2015
(20)Y. Lin#,X. Li#, D. Xie*, T. Feng, T. Ren*, K. Wang, H. Zhu*. Graphene/Semiconductor Heterojunction Solar Cells with Modulated Antireflection and Graphene Work Function.Energy & Environmental Science, 2013
(21)X. Li, D. Xie, H. Park, T. Zeng, K. Wang, D. Wu, J. Kong, H. Zhu*. Anomalous Behaviors of Graphene Transparent Conductors in Graphene-Silicon Heterojunction Solar Cells.Advanced Energy Materials, 2013
(22)X. Li, D. Xie, M. Zhu, H. Park, T. Zeng, K. Wang, D. Wu, J. Kong, H. Zhu*. Ion Doping of Graphene for High-Efficiency Heterojunction Solar Cells.Nanoscale, 2013
(23)X. Li, T. Zhao, Q. Chen, P. Li, K. Wang, M. Zhong, J. Wei, D. Wu, B. Wei. Hongwei Zhu*. Flexible All Solid-State Supercapacitors Based on Chemical Vapor Deposition Derived Graphene Fibers.Physical Chemistry Chemical Physics, 2013
(24)X. Li, T. Zhao, K. Wang, Y.Yang, J. Wei, F. Kang, D. Wu, H. Zhu*. Directly Drawing Self-Assembled, Porous, and Monolithic Graphene Fiber from Chemical Vapor Deposition Grown Graphene Film and Its Electrochemical Properties.Langmuir, 2011
(25)X. Li, H. Zhu*, K. Wang*, A. Cao, J. Wei, C. Li, Y. Jia, Z. Li, D. Wu. Graphene-on-Silicon Schottky Junction Solar Cells.Advanced Materials, 2010
(26)X. Li, H. Zhu*, J. Wei, K.Wang,E.Xu, Z. Li, D. Wu. Determination of Band Gaps of Self-assembled Carbon Nanotube Films UsingTauc/Davis-Mott Model.Applied Physics A,2009
論著:
X. Li, T. Zhao, H. Zhu. Chapter 7: Quantum dot and heterojunction solar cells containing carbon nanomaterialsin Carbon Nanomaterials for Advanced Energy Systems: Advances in Materials Synthesis and Device Applications. John Wiley and Sons, Edited by Wen Lu, Jong-Beom Baek, Liming Dai. 2015
