游經碧

個人研究及經歷

研究興趣
1. 疊層聚合物太陽能電池的研究
2. 反式結構聚合物太陽能電池的研究
3. 金屬表面等離激元增強在光電子器件中的套用
4. ZnO等寬頻隙半導體材料光電性能的研究
教育經歷
2001年9月-2005年7月 湖北大學 電子科學技術系 學士
2005年9月-2010年7月 中國科學院半導體研究所 材料物理與化學專業 博士
工作經歷
2009年11月-2010年5月 香港城市大學 物理與材料科學系 訪問學者
2010年9月-至今 加州大學洛杉磯分校材料科學與工程 博士後研究員

榮譽與獎項

2012年， 加州大學洛杉磯分校博士後研究獎提名獎
2011年，中國科學院百篇優秀博士論文
2010年，中國科學院院長優秀獎
2009年，中國科學院研究生科技創新專項
2008年，中國科學院半導體研究所五四青年交流會二等獎

代表性論文

1) L. T. dou+, J. B. You+, J. Yang, C. C. Chen, Y. J. He, S. Murase, T. Moriarty,K. Emery, G. Li and Yang Yang. Tandem polymer solar cells featuring aspectrally matched low-bandgap polymer. Nature Photonics, 6, 180 (2012). (+ Equally contribution as the first author, 共同第一作者)
2）J. B. You, C. C. Chen, L. T. Dou, S. Murase, H. S. Duan, S. Hawks, T. Xu, H. J. Son, L. P. Yu, G. Li, Y. Yang. Metal oxide nanoparticles as electron transport layer in high performance and stable inverted polymer solarcells. Advanced Materials. (2012). In press
3) J. B. You, X. H. Li, F. X. Xie, W. E. I. Sha, J. H. W.Kwong, G. Li, W. C. H. Choy, Y. Yang.Surface plasmon and scattering-enhanced low-bandgappolymer solar cell by a metal grating back electrode. Advanced Energy Materials. (2012). In press
4） J. Yang+,J. B. You+, C. C. Chen, W. C. Hsu, H. R. Tan, X. W. Zhang,Z. R. Hong, and Y. Yang. Plasmonic polymer tandem solar cells.ACS Nano, 5, 6210�6217 (2011). (+ Equally contribution as the first author, 共同第一作者)
5） Y. J. He, J. B. You, L. T. Dou, C. C. Chen, E. Richard, K. C. Cha, Y.Wu, G. Li, Y. Yang. High performance low band gap polymer solar cells with anon-conventional acceptor. Chemical Communication. 48,7616 (2012).
6） L.T. Dou, J. Gao, E. Richard, J. B. You,C. C. Chen, K. C. Cha, Y. J. He, G. Li, Y. Yang. Systematic investigation of benzodithiophene- and diketopyrrolopyrrole-based low-bandgap polymers designed for single junctionand tandem polymer solar cells. Journal of American Chemical Society. 134, 10071(2012).
7) X. H. Li, W. C.H. Choy, L. J. Huo, F. X. Xie, W. E. I. Sha, B. F. Ding, X. Guo, Y. F. Li, J.H. Hou, J. B. You,Yang Yang. Dual Plasmonic Nanostructures for High Performance Inverted Organic Solar Cells. Advanced Materials. 24, 3046 (2012).
8) Y. S. Liu, X. J. Wan, F. Wang, J. Y. Zhou. G. K. Long, J. G. Tian,J. B. You, Y. Yang, Y. S. Chen,Advanced Energy Materials, 1, 771 (2011).
9) J. B. You, X. W. Zhang, S. G. Zhang, J. X.Wang, H. R. Tan, Z. G. Yin, W. J. Zhang, Paul K. Chu, B. T. Cui, A. M.Wowchak, A. M. Dabiran, and P. P. Chow, Improved electroluminescence from n-ZnO/AlN/p-GaN heterojunction light-emitting diodes, Applied Physics Letters, 96, 201102 (2010).
10) J. B. You, X. W. Zhang, S. G. Zhang,H. R. Tan,J. Ying, Z. G.Yin, Q. S. Zhu,and Paul. K. Chu, Electroluminescence behavior of ZnO/Si heterojunctions: energy band alignment and interfacial microstructure,Journal of Applied Physics,107, 083701 (2010).
11) J. B. You, X. W. Zhang, P. F. Cai, J. J. Dong,Y. Gao, Z. G. Yin, N. F. Chen, R. Z. Wang, and H. Yan, Enhancement of fieldemission of the ZnO film by the reduced work function and the increasedconductivity via hydrogen plasma treatment, Applied Physics Letters,94, 262105 (2009).
12) J. B. You,X. W. Zhang, H. P. Song, J. Ying, Y. Guo, A. L. Yang, Z. G. Yin, N. F.Chen, and Q. S. Zhu, Energy band alignment of SiO2/ZnO interface determined by x-rayphotoelectron spectroscopy,Journal of Applied Physics, 106, 043709 (2009).
13) J. B. You, X. W. Zhang, J. J. Dong, X. M. Song, Z. G. Yin, N. F. Chen,and H. Yan, Localized-Surface-Plasmon enhanced the 357 nm forward emission fromZnMgO films capped by Pt nanoparticles,Nanoscale Research Letters, 4, 1121(2009).
14) J. B. You, X. W. Zhang, Y. M. Fan, Z. G. Yin, P. F. Cai, and N. F.Chen, Effects of crystalline quality on the ultraviolet emission and electrical properties of the ZnO films deposited by magnetron sputtering,Applied Surface Science, 255, 5876 (2009).
15) J. B. You,X. W. Zhang, Y. M. Fan, Z, G. Yin, P. F. Cai, and N. F. Chen, Effects of the morphology of ZnO/Ag interface on the surface-plasmon-enhanced emission of ZnO films, Journal of Physics D:Applied Physics, 41, 205101 (2008).
16) J. B. You,X. W. Zhang, Y. M. Fan, S. Qu, and N. F. Chen, Surface plasmon enhanced ultraviolet emission from ZnO films deposited on Ag/Si(001) by magnetron sputtering, Applied Physics Letters, 91, 231907 (2007).
17) P. F. Cai, J. B. You, X. W. Zhang, J. J. Dong, X. L. Yang,Z. G. Yin, and N. F. Chen, Enhancement of conductivity and transmittance of ZnO films by post hydrogen plasma treatment, Journal of Applied Physics,105,083713 (2009).
18) J. J. Dong, X. W. Zhang, J. B. You, P. F. Cai, Z. G.Yin, Q. An, X. B. Ma, P. Jin, Z. G. Wang, and P. K. Chu, Effects of Hydrogen Plasma treatment on the electrical and optical properties of ZnO films: indentification of hydrogen donors in ZnO. ACS Applied Mateirals and Interfaces, 2, 1780 (2010).
19) S. M. Yu, F. Yan, X. W. Zhang, J.B. You, P. Y. Wu, J. M. Lu, Q. F. Xu, X. W. Xia, and G. L. Ma, Polymerization of Ionic Liquid-Based Microemulsions: A VersatileMethod for the Synthesis of Polymer electrolytes, Macromolecules, 41, 3389(2008).
20) F. Yan, S. M. Yu, X. W. Zhang, L. H. Qiu, F. Q. Chu, J. B. You, and J. M. Lu, Enhanced Proton conduction in Polymer Electrolyte Membranes as Synthesized by Polymerization of Protic Ionic Liquid-Based Microemulsions,Chemistry of Materials, 21, 1480(2009).
21) S.Qu, X. W. Zhang, Y. Gao, J. B. You, Y. M. Fan, Z. G. Yin,and N. F. Chen, Composition deviation of arrays of FePt nanoparticles starting from poly(styrene)�poly (4-vinylpyridine) micelles, Nanotechnology, 19,135704 (2008).