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高进伟

博士、副教授、硕士研究生导师...

基本介绍

个人简介:  

20104月毕业于华南理工大学,获博士学位;2007-2010年在美国麻省理工学院机械系陈刚教授课题组开展博士联合培养访问研究;20104-至今,在华南师范大学华南先进光电子研究院工作。近年来围绕能源、光电材料的设计、制备、器件及其理论模拟开展了系列研究工作。特别是在新型透明导电薄膜的低成本设计、制备和柔性光伏、传感器、触摸显示器件方面开展了一些创新性工作。提出了多种金属网络透明电极的制备方法,例如龟裂模板、仿生结构等。在Nature communicationAdvanced MaterialsNano LettersNano TodaySmall等期刊刊发论文40多篇,论文引用次数达1200多次;授权/申请国际国内发明专利14项。有关透明导电薄膜的研究在Nature communicationAdvanced Materials等以封面形式刊出,同时被国内外多家主流科技媒体,例如Science dailyPhys.org、中国科技日报等报道和转载。

 

主要研究兴趣:

(1)新型光电材料与太阳能电池,(2)新型透明导电薄膜材料,(3)高导热导电微纳米结构复合材料,(4)分子尺度能量输运与转换机理研究。

 

研究论文代表作(5

(1) Han B.; Huang Y.; Li R.; Peng Q.; Luo J.; Pei K.; Herczynski A.; Kempa K.; Ren Z.; and Gao J.*(高进伟), Bio-inspired Networks for Optoelectronic Applications.Nature Communications 2014, 5: 5674, 10.1038/ncomm6674. (Science daily, Phys.org, Eurek.org, Asiaeu.com, Newsgb.com, Topix.com, Lockerdome.com30家国外主流科技媒体报道;中国科技日报等多家国内媒体报道)

(2) Zheng, R.; Gao, J. (高进伟); Wang, J.; Chen, G.*, Reversible temperature regulation of electrical and thermal conductivity using liquid–solid phase transitions. Nature Communications 2011, 2, 289. (News Coverage: MIT homepage, Science Daily).(影响因子10.67, 引用次数34次)

(3)   Han, B.; Pei, K.; Huang, Y.; Zhang, X.; Rong, Q.; Lin, Q.; Guo, Y.; Sun, T.; Guo, C.; Carnahan, D.; Gao, J.*(高进伟); Ren, Z.*Kempa, K.*, Uniform SelfForming Metallic Network as a HighPerformance Transparent Conductive Electrode. Advanced Materials 2014, 26, 873-877. (影响因子 15.3,封面刊出,引用次数14)

(4)   Sun, P.; Wu, Y.; Gao, J. (高进伟); Cheng, G.; Chen, G.; Zheng, R., Room Temperature Electrical and Thermal Switching CNT/Hexadecane Composites. Advanced Materials 2013, 25, 4938-4943. (影响因子 14.829,引用次数5)

(5)   Gao, J.*(高进伟); Pei, K.; Sun, T.; Wang, Y.; Zhang, L.; Peng, W.; Lin, Q.; Giersig, M.Kempa, K.; Ren, Z., Transparent Nanowire Network Electrode for Textured Semiconductors. Small 2013, 9, 733-737. (影响因子 8.349,卷首插图刊出广东科技独家专访引用次数4)

(6)   Guo, C. F.; Sun, T.; Wang, Y.; Gao, J. (高进伟); Liu, Q.; Kempa, K.; Ren, Z., Conductive black silicon surface made by silver nanonetwork assisted etching. Small 2013,9, 2415-2419. (影响因子 8.349,引用次数8)

(7)   Gao, J. (高进伟); Zheng, R.; Ohtani, H.; Zhu, D.; Chen, G.*, Experimental investigation of heat conduction mechanisms in nanofluids. Clue on clustering. Nano Letters 2009, 9, 4128-4132. (影响因子 13.198,引用次数112次)

(8)   Zheng, R.; Gao, J. (高进伟); Wang, J.; Feng, S.-P.; Ohtani, H.; Wang, J.; Chen, G.*, Thermal percolation in stable graphite suspensions. Nano Letters 2011, 12, 188-192. (影响因子 13.198,引用次数33次)

(9)   Wang, J.; Zheng, R.; Gao, J.Chen, G. *, Heat conduction mechanisms in nanofluids and suspensions. Nano Today 2012, 7, 124-136. (影响因子 15.6,引用次数:28)

(10) Zhang, L.; Pei, K.; Yu, M.; Huang, Y.; Zhao, H.; Zeng, M.; Wang, Y.; Gao, J. (高进伟)*, Theoretical Investigations on Donor-acceptor Conjugated Copolymers Based on Naphtho [1, 2-c: 5, 6-c] bis [1, 2, 5] thiadiazole for Organic Solar Cell Applications. The Journal of Physical Chemistry C 2012, 116, 26154–26161. (影响因子 4.8,引用次数13)

(11) Zhang, L.; Pei, K.; Zhao, H.; Wu, S.; Wang, Y.; Gao, J. (高进伟) *, Rational design of novel AADAA type electron donors for small molecule organic solar cells.Chemical Physics Letters 2012, 543, 199-204. (影响因子:2.337, 引用次数15)

(12) Zhang, L.; Yu, M.; Zhao, H.; Wang, Y.; Gao, J. (高进伟)*, Theoretical investigations on the electronic and optical characteristics of fused-ring homopolymers: Comparison of oligomer method and PBC DFT method. Chemical Physics Letters 2013, 570, 153-158. (影响因子2.337,引用次数13)

(13)Yu, M.; Zhang, L.; Peng, Q.; Zhao, H. and Gao, J. (高进伟)*, Narrow-Band Gap Benzodipyrrolidone (BDPD) Based Donor Conjugated Polymer: A Theoretical Investigation. Computational and Theoretical Chemistry, 2015, 1055, 88-93. (影响因子1.36)

(14) Zhang, L.; Yu, M.; Peng, Q.; Zhao, H. and Gao, J. (高进伟)*, Molecular design and theoretical investigation on the thieno[3,2-b]thienobis(silolothiophene) based low band gap donor polymers for efficient polymer solar cell. Molecular Simulation, 2015, 1-9 DOI:10.1080/08927022.2015.1008469. (影响因子1.1)

(15) Akinoglu, E. M.; Sun, T.; Gao, J. (高进伟); Giersig, M.; Ren, Z.*Kempa, K.*, Evidence for critical scaling of plasmonic modes at the percolation threshold in metallic nanostructures. Applied Physics Letters 2013, 103, 171106. (影响因子3.79, 引用次数6)

(16) Sun, T.; Akinoglu, E. M.; Guo, C.; Paudel, T.; Gao, J. (高进伟); Wang, Y.; Giersig, M.; Ren, Z.; Kempa, K.*, Enhanced broad-band extraordinary optical transmission through subwavelength perforated metallic films on strongly polarizable substrates. Applied Physics Letters 2013, 102, 101114. (影响因子3.79, 引用次数7)

(17) Buongiorno, J.; Venerus, D. C.; Prabhat, N.; McKrell, T.; Townsend, J.; Christianson, R.; Tolmachev, Y. V.; Keblinski, P.; Hu, L.-w.; Alvarado, J. L., Chen G.; Gao, J. (高进伟); et al. A benchmark study on the thermal conductivity of nanofluids. Journal of Applied Physics 2009, 106, 094312. (影响因子3.79, 引用次数412)

(18) Venerus, D.; Buongiorno, J.; Christianson, R.; Townsend, J.; Bang, I. C.; Chen, G.; Chung, S. J.; Chyu, M.; Chen, H.; Gao, J. (高进伟); Ding, Y., Viscosity measurements on colloidal dispersions (nanofluids) for heat transfer applications. Applied Rheology 2010, 20. 4458201 (影响因子1.6, 引用次数54)

(19) Zheng, R.; Gao, J. (高进伟); Yang, T.; Lan, Y.; Cheng, G.; Wang, D.; Ren, Z.; Chen, G.*, Na2SO4 Monocrystal Nanowires Aspect Ratio Control and Electron Beam Radiolysis. Inorganic chemistry 2010, 49, 6748-6754. (影响因子3.79, 引用次数54)

 

国内外邀请报告

(1) Jinwei Gao*, Solution-Processed Metallic Network as a High Performance Transparent Conductive Electrode, MRS, 1-5, December 2014, Boston (US), Poster.

(2) Jinwei Gao*, Metallic Networks for Optoelectronic Applications, Progress in Electromagnetics Research Symposium (PIERS), 25-28, August 2014, Guangzhou (Canton), China, Sesstion Orgnizer and invited talk.

(3) Jinwei Gao*, Solution-processed transparent conductive metallic network/mesh and their applications, The third energy workshop with advanced materials and information, 10-18, August 2014, Sichuan, China, invited talk.

(4) Jinwei Gao*, Flexible Optoelectronic Network Structures, SYSU Workshop on Nano-Plasmonics, 12-14, October 2014, Guangzhou, China, invited talk.

(5) Jinwei Gao*, Transparent nanowire network electrode (NNE) for a potential application in solar cell, The second energy workshop with advanced materials and information, 10-19, 2013, Sichuan, China, invited talk.

(6) Jinwei Gao*, The applicaitions of self-assembly Silver nanoparticle line in semiconductors, (HNU-PKU Bilateral Workshop on Nano-Optics, 23-25, May, 2013, Changsha, China, invited talk.

(7) Jinwei Gao*, Na2SiO3-assistant Single Crystalline Silicon Etching for Solar CellAsia Communications & Photonics Conference (ACP), 7-10, November 2012, Guangzhou (Canton), China, invited talk.

(8) Jinwei Gao*, Heat Conduction Mechanisms of Graphite/Graphene Suspensions, The first energy workshop with advanced materials and information,11-18, August 2012, Sichuan, China, invited talk.

(9) Jianjian Wang, Ruiting Zheng, Jinwei Gao, and Gang Chen*, Reversible Temperature Regulation of Electrical and Thermal Conductivity via Liquid-Solid Phase Transition, MRS Fall Meeting, CC13.12, 28/11-2/12, 2011, Boston, USA, invited talk.

(10) Jianjian Wang, Ruiting Zheng, Jinwei Gao, and Gang Chen*, Investigation on the Heat Conduction Mechanisms of Graphite Suspensions, IMECE2011-63287, ASME 2011 International Mechanical Engineering Congress and Exhibition, 12-17, November 2011, Denver, Colorado, invited talk.

(11) Jianjian Wang, Ruiting Zheng, Jinwei Gao, and Gang Chen*, Heat Conduction in Nanofluids: Mechanisms and New Phenomena, 7th US-Japan Joint  Seminaron Nanoscale Transport Phenomena, Shima, 11-14, December 2011, Japan, invited talk.

(12) Jinwei Gao*Micro- and Nano- fluids: Experiment, Theory, and Application in Energy ManagementCHINA-HONGKONG advanced photonics seminar, 10, December 2011SCNU, China, invited talk.

(13) Jinwei Gao*, High efficient thermal conductivity micro/nano fluids: An Enabling Energy Management, South China normal university graduate student BBS, 12, October, 2011, SCNU, China, invited talk.

(14) Jianjian Wang, Ruiting Zheng, Jinwei Gao, and Gang Chen*, Heat Conduction Mechanisms and Applications of Graphite Suspensions, Carbon Nano Materials and Applications Workshop, 30/10-1/11, 2011, Rapid City, SD, invited talk.

(15) Jinwei Gao, Gang Chen*. A Benchmark Study on the Thermal Conductivity of Nanofluids, Nanofluids benchmark in Beverly Hills, 15, January, 2010, California,USA invited talk.

 

授权/申请专利

(1)     高进伟,裴颗,王洋晶体硅太阳能电池透明电极的制备方法,中国发明专利,专利申请时间: 2012.10.26, 专利授权号: 201210019460.X

(2)     高进伟,韩兵,裴颗,王洋,一种基于龟裂模板法制备多孔金属薄膜透明导电电极的方法,中国发明专利,专利申请时间:2013.04.10,中国发明专利: CN201310122824.1

(3)     高进伟,黄苑林,韩兵,一种基于光刻掩膜法和液相法制备太阳能电池银线网络电极的方法,中国发明专利,专利申请时间:2013.7.2,中国发明专利: CN201310261756.7

(4)      高进伟,韩兵,裴颗,王洋, 晶体硅太阳能电池纳米透明埋栅电极的制备方法中国发明专利,专利申请时间:2012.11.06,中国发明专利: CN201210439754.8

(5)     高进伟,韩兵,黄苑林,一种蛛丝状透明导电电极,中国发明专利,201410175312.6

(6)     高进伟,黄苑林,韩兵,陈晓鹏,一种金属银网格埋栅透明电极的制备方法,中国发明专利,201410631427.1

(7)     高进伟,容齐坤,韩兵,李若朋,彭强,林振炫,一种双n层结构非晶硅太阳能电池及其制备方法,中国发明专利,201510035931.X

(8)     高进伟,李若朋,韩兵,彭强,吴永健,一种银纳米线透明导电电极的制备方法,中国发明专利,201510034152.8

(9)     高进伟,彭强,韩兵,李若朋,陈晓鹏,一种基于金属网格和金属纳米线制备复合透明导电电极的方法,中国发明专利,201510035791.6

(10)  郑瑞廷,高进伟,陈刚,包括石墨微流体的热导和/或电导微流体,中国发明专利,专利申请时间:201012月,专利授权号:CN201080063919.5

(11)  Ruiting Zheng, Jinwei Gao (高进伟), Gang ChenGraphite microfluids, 美国发明专利,专利授权时间:20126月,专利授权号:US8192643 B2

(12)  Ruiting Zheng, Gao Jinwei(高进伟), Gang ChenThermal and/or electrical conductivity control in suspension, 美国发明专利,专利公布时间:20119月,专利公开号:US20110220841

(13)  Ruiting Zheng, Jinwei Gao(高进伟), Gang ChenElectrically and thermally conductivity suspension including graphite microfluids,国际PCT专利,专利申请时间:201012月,专利申请号:PCT/US2010060507

 
学术兼职:
1.
美国机械工程协会(AMSE) 会员(2008- )
2.
美国材料协会(MRS) 会员(2008- )
3.
美国高效制冷剂-纳米流体协会(Nanofluids)会员(2007- )

支持和鼓励本科学生进入实验室合作开展研究工作;到目前为止,已经有约20名本科生在课题组开展研究工作,本科学生在Advanced Materials等期刊刊发3篇文章以上,申请发明专利多篇。欢迎能源、材料、光电等领域的学生报考研究生。

 

联系方式:gaojw@scnu.edu.cn


 

 

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