游经碧，男，博士，中国科学院半导体研究所研究员，博士生导师。

研究兴趣

1.叠层聚合物太阳能电池的研究

2.反式结构聚合物太阳能电池的研究

3.金属表面等离激元增强在光电子器件中的应用

4.ZnO等宽带隙半导体材料光电性能的研究

教育经历

2001年9月-2005年7月湖北大学电子科学技术系学士

2005年9月-2010年7月中国科学院半导体研究所材料物理与化学专业博士

工作经历

2009年11月-2010年5月香港城市大学物理与材料科学系访问学者

2010年9月-至今加州大学洛杉矶分校材料科学与工程博士后研究员

2022年，荣获2021年度中科院青年科学家奖。

2012年，加州大学洛杉矶分校博士后研究奖提名奖

2011年，中国科学院百篇优秀博士论文

2010年，中国科学院院长优秀奖

2009年，中国科学院研究生科技创新专项

2008年，中国科学院半导体研究所五四青年交流会二等奖

1.新一代光伏材料与器件（如钙钛矿及有机太阳能电池等）

2.新型光电材料与器件

3.钙钛矿半导体光电器件

主要从事新型光伏材料与器件的研究工作。在有机太阳能电池，特别是有机叠层电池研究方面取得重大突破。提出稳定的反型叠层聚合物太阳能电池结构，研制出转化效率高达10.6%的有机叠层太阳能电池，作为世界纪录列入美国NREL所发表的Best Research-Cell Efficiencies图表中。在新型有机/无机化合物钙钛矿太阳能电池方面开展了大量前瞻性的工作，取得了一些非常重要的结果。研制出全低温的柔性钙钛矿太阳能电池。发现微量水对钙钛矿生长的促进作用这一“反常”现象，并探讨了其机理。通过无机金属氧化物取代传统有机电荷传输层，显著提高了钙钛矿电池稳定性。在Nature子刊, Account of Chemical Research, Adv. Mater以及Appl. Phys. Lett.等学术杂志上发表论文50余篇，所发表论文被他引5000余次。

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 能量 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 diketopyrrolo吡咯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 PlasmonicNanostructuresfor 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 能量 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: 能量 bandalignmentand interfacial microstructure,Journal of Applied Physics,107, 083701 (2010).

11)J. B. You, X. W. Zhang, P. F. Cai, J. J. 越南盾,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 函数 and the increasedconductivity via 氢 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, 能量 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. 越南盾, X. M. Song, Z. G. Yin, N. F. Chen,and H. Yan, Localized-surfacePLASMON enhanced the 357 nm 前锋 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-PLASMONenhanced 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. 越南盾, X. L. Yang,Z. G. Yin, and N. F. Chen, Enhancement of conductivity and transmittance of ZnO films by post 氢 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 氢 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 Polymerelectrolytes,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 Protonconductionin Polymer Electrolyte Membranes as Synthesized by Polymerization of Protic Ionic Liquid-Based Microemulsions,化学 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).