个人简历

教育背景\r
1995-1999年， 中央民族大学 物理系 本科 \r
2002-2007年，北京交通大学 理学院 研究生 \r
2006年， 德国洪堡大学 访学 \r
2007年， 北京交通大学 讲师 \r
2009年， 破格副教授、硕士生导师 \r
2010年，入选“红果园”人才计划 \r
2011年， 博士生导师 \r
2013年， 破格 教授 \r
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近5年，以通讯作者在影响因子大于10期刊上发表学术论文38篇，累计被引用近7000多次，ESI高被引论文21篇。1篇第一作者论文被评为“中国百篇最具影响国际学术论文”。两名博士生荣获“王大珩光学奖高校学生奖”，两名博士生分别获得“香江学者计划”、“博新计划”的资助。

研究领域

""发光与显示；光学工程；光电子材料与器件""""

近期论文

1.\tJinhua Gao(#); Wei Gao(#); Xiaoling Ma; Zhenghao Hu; Chunyu Xu; Xuelin Wang; Qiaoshi An; Chuluo Yang(*); Xiaoli Zhang; Fujun Zhang(*), Over 14.5% efficiency and 71.6% fill factor of ternary organic solar cells with 300 nm thick active layers, Energy & Environmental Science, 2020, 13(3): 958-967 (影响因子=33.2)\r
2.\tMiao Zhang(#); Wei Gao(#); Fujun Zhang(*); Yang Mi; Wenbin Wang; Qiaoshi An; Jian Wang; Xiaoling Ma; Jianli Miao; Zhenghao Hu; Xinfeng Liu; Jian Zhang; Chuluo Yang(*), Efficient ternary non-fullerene polymer solar cells with PCE of 11.92% and FF of 76.5%, Energy & Environmental Science, 2018, 11(4): 841~849 (影响因子=33.2, ESI highly cited)\r
3.\tXiaoling Ma; Wei Gao; Jiangsheng Yu; Qiaoshi An; Miao Zhang; Zhenghao Hu; Jianxiao Wang; Weihua Tang; Chuluo Yang and Fujun Zhang(*), Ternary nonfullerene polymer solar cells with efficiency >13.7% by integrating the advantages of the materials and two binary cells, Energy & Environmental Science, 2018, 11, 2134-2141 (影响因子=33.2, ESI highly cited)\r
4.\tQiaoshi An; Fujun Zhang(*); Jian Zhang; Weihua Tang; Zhenbo Deng; Bin Hu(*), Versatile ternary organic solar cells: a critical review, Energy & Environmental Science, 2016, 9(2): 281~322 (影响因子=33.2, ESI highly cited)\r
5.\tJia Sun(#); Xiaoling Ma(#); Zhuohan Zhang; Jiangsheng Yu; Jie Zhou; Xinxing Yin; Renyong Geng; Linqiang Yang; Rihong Zhu; Fujun Zhang(*); Weihua Tang(*), Dithieno[3,2-b:2',3'-d]pyrrol fused non-fullerene acceptors enabling over 13% efficiency for organic solar cells, Advanced Materials, 2018, 30(16): 1707150 (影响因子=25.8, ESI highly cited) \r
6.\tWei Gao(#); Miao Zhang(#); Tao Liu; Ruijie Ming; Qiaoshi An; Kailong Wu; Dongjun Xie; Zhenghui Luo; Cheng Zhong; Feng Liu(*); Fujun Zhang(*); He Yan; Chuluo Yang(*), Asymmetrical ladder-type donor-induced polar small molecule acceptor to promote fill factors approaching 77% for high-performance nonfullerene polymer solar cells, Advanced Materials, 2018, 30(26): 1800052 (影响因子=25.8, ESI highly cited) \r
7.\tXiaoling Ma(#); Yang Mi(#); Fujun Zhang(*); Qiaoshi An; Miao Zhang; Zhenghao Hu; Xinfeng Liu(*); Jian Zhang; Weihua Tang, Efficient ternary polymer solar cells with two well-compatible donors and one ultranarrow bandgap nonfullerene acceptor, Advanced Energy Materials, 2018, 8(11): 1702854 (影响因子=24.8, ESI highly cited) \r
8.\tMiao Zhang; Zuo Xiao; Wei Gao; Qishi Liu; Ke Jin; Wenbin Wang; Yang Mi; Qiaoshi An; Xiaoling Ma; Xinfeng Liu; Chuluo Yang(*); Liming Ding(*); Fujun Zhang(*), Over 13% efficiency ternary nonfullerene polymer solar cells with tilted up absorption edge by incorporating a medium bandgap acceptor, Advanced Energy Materials, 2018, 8: 1801968 (影响因子=24.8)\r
9.\tZhenghao Hu; Fujun Zhang(*); Qiaoshi An; Miao Zhang; Xiaoling Ma; Jianxiao Wang; Jian Zhang; Jian Wang, Ternary nonfullerene polymer solar cells with a power conversion efficiency of 11.6% by inheriting the advantages of binary cells, ACS Energy Letters, 2018, 3(3): 555~561 (影响因子=16.3, ESI highly cited)\r
10.\tWei Gao(#); Qiaoshi An(#); Minghui Hao; Rui Sun; Jian Yuan; Fujun Zhang(*); Wei Ma(*); Jie Min(*); Chuluo Yang*, Thick-film organic solar cells achieving over 11% efficiency and nearly 70% fill factor at thickness over 400 nm, Advanced Functional Materials, 2020, 30: 1908336 (影响因子=15.6)\r
11.\tZhuohan Zhang; Jiangsheng Yu; Xinxing Yin; Zhenghao Hu; Yufeng Jiang; Jia Sun; Jie Zhou; Fujun Zhang(*); Thomas P. Russell; Feng Liu(*); Weihua Tang(*), Conformation locking on fused-ring electron acceptor for high-performance nonfullerene organic solar cells, Advanced Functional Materials, 2018, 28(11): 1705095 (影响因子=15.6)\r
12.\tWenbin Wang(#); Dewei Zhao(#*); Fujun Zhang(*); Ludong Li; Mingde Du; Changlei Wang; Yue Yu,; Qianqian Huang; Miao Zhang; Lingliang Li; Jianli Miao; Zheng Lou; Guozhen Shen; Ying Fang; Yanfa Yan(*), Highly sensitive low-bandgap perovskite photodetectors with response from ultraviolet to the near-infrared region, Advanced Functional Materials, 2017, 27(42): 1703953 (影响因子=15.6) \r
13.\tWei Gao(#); Qiaoshi An(#); Ruijie Ming; Dongjun Xie; Kailong Wu; Zhenghui Luo; Yang Zou; Fujun Zhang(*); Chuluo Yang (*), Side group engineering of small molecular acceptors for high-performance fullerene-free polymer solar cells: Thiophene being superior to selenophene, Advanced Functional Materials, 2017, 27(34): 1702194 (影响因子=15.6) \r
14.\tXiaoling Ma; Jian Wang; Qiaoshi An; Jinhua Gao; Zhenghao Hu; Chunyu Xu; Xiaoli Zhang; Zhitian Liu; Fujun Zhang(*), Highly efficient quaternary organic photovoltaics by optimizing photogenerated exciton distribution and active layer morphology, Nano Energy, 2020, 70: 104496 (影响因子=15.5)\r
15.\tChunyu Xu; Jian Wang; Qiaoshi An; Xiaoling Ma; Zhenghao Hu; Jinhua Gao; Jian Zhang; Fujun Zhang(*), Ternary small molecules organic photovoltaics exhibiting 12.84% efficiency, Nano Energy, 2019, 66: 104119 (影响因子=15.5)\r
16.\tJinhua Gao; Ruijie Ming; Qiaoshi An; Xiaoling Ma; Miao Zhang; Jianli Miao; Jianxiao wang; Chuluo Yang(*); Fujun Zhang(*); Ternary organic solar cells with J71 as donor and alloyed acceptors exhibiting 13.16% efficiency, Nano Energy, 2019, 63: 103888 (影响因子=15.5)\r
17.\tQiaoshi An; Jian Wang; Fujun Zhang(*), Ternary polymer solar cells with alloyed donor achieving 14.13% efficiency and 78.4% fill factor , Nano Energy, 2019, 60: 768-774 (影响因子=15.5, ESI highly cited)\r
18.\tMiao Zhang; Ruijie Ming; Wei Gao; Qiaoshi An; Xiaoling Ma; Zhenghao Hu; Chuluo Yang(*); Fujun Zhang(*), Ternary polymer solar cells with alloyed non-fullerene acceptor exhibiting 12.99% efficiency and 76.03% fill factor, Nano Energy, 2019, 59: 58-65 (影响因子=15.5)\r
19.\tZhenghao Hu; Jian Wang; Zhi Wang; Wei Gao; Qiaoshi An; Miao Zhang; Xiaoling Ma; Jianxiao Wang; Jianli Miao; Chuluo Yang; Fujun Zhang(*), Semitransparent ternary nonfullerene polymer solar cells exhibiting 9.40% efficiency and 24.6% average visible transmittance, Nano Energy, 2019, 55: 424~432 (影响因子=15.5, ESI highly cited) \r
20.\tQiaoshi An; Fujun Zhang(*); Wei Gao; Qianqian Sun; Miao Zhang; Chuluo Yang(*); Jian Zhang, High-efficiency and air stable fullerene-free ternary organic solar cells, Nano Energy, 2018, 47: 177~183 (影响因子=15.5, ESI highly cited) \r
21.\tMiao Zhang(#); Jian Wang(#); Fujun Zhang(*); Yang Mi; Qiaoshi An; Wenbin Wang; Xiaoling Ma; Jian Zhang(*); Xinfeng Liu, Ternary small molecule solar cells exhibiting power conversion efficiency of 10.3%, Nano Energy, 2017, 39: 571~581 (影响因子=15.5) \r
22.\tMiao Zhang; Fujun Zhang(*); Qiaoshi An; Qianqian Sun; Wenbin Wang; Jian Zhang; Weihua Tang, Highly efficient ternary polymer solar cells by optimizing photon harvesting and charge carrier transport, Nano Energy, 2016, 22: 241~254 (影响因子=15.5, ESI highly cited) \r
23.\tQiaoshi An; Fujun Zhang(*); Qianqian Sun; Miao Zhang; Jian Zhang; WeihuaTang; Zhenbo Deng, Efficient organic ternary solar cells with the third component as energyacceptor, Nano Energy, 2016, 26: 180~191 (影响因子=15.5) \r
24.\tQiaoshi An; Fujun Zhang(*); Xinxing Yin; Qianqian Sun; Miao Zhang; Jian Zhang(*); Weihua Tang; Zhenbo Deng, High-performance alloy model-based ternary small molecule solar cells, Nano Energy, 2016, 30: 276~282 (影响因子=15.5) \r
25.\tWenbin Wang; Fujun Zhang(*); Mingde Du; Lingliang Li; Miao Zhang; Kai Wang; Yongsheng Wang; Bin Hu; Ying Fang(*); Jinsong Huang(*), Highly narrowband photomultiplication type organic photodetectors, Nano Letters, 2017, 17(3): 1995~2002 (影响因子=12.2, ESI highly cited) \r
26.\tZhenghao Hu(#); Linqiang Yang(#); Wei Gao(#); Jinhua Gao; Chunyu Xu; Xiaoli Zhang; Zhi Wang; Weihua Tang(*); Chuluo Yang(*); Fujun Zhang(*), Over 15.7% efficiency of ternary organic solar cells by employing two compatible acceptors with similar LUMO levels, Small, 2020, 16: 2000441 (影响因子=10.8)\r
27.\tJianxiao Wang(#); Xiaoling Ma(#); Jian Wang(*); Rujie Ming; Qiaoshi An; Jian Zhang; Chuluo Yang(*); Fujun Zhang(*), Two well-compatible acceptors with efficient energy transfer enable ternary organic photovoltaics exhibiting a 13.36% efficiency, Small, 2019, 15(41): 1902602 (影响因子=10.8)\r
28.\tQiaoshi An; Jian Zhang; Wei Gao; Feng Qi; Miao Zhang; Xiaoling Ma; Chuluo Yang(*); Lijun Huo(*); Fujun Zhang(*), Efficient ternary organic solar cells with two compatible non-fullerene materials as one alloyed acceptor, Small, 2018, 14(45): 1802983 (影响因子=10.8)\r
29.\tXiaoling Ma; Qiaoshi An; Olzhas A. Ibraikulov; Patrick Lévêque; Thomas Heiser(*); Nicolas Leclerc(*); Xiaoli Zhang; Fujun Zhang(*), Efficient ternary organic photovoltaics with two polymer donors by minimizing energy loss, Journal of Materials Chemistry A, 2020, 8(3): 1265-1272 (影响因子=10.7, ESI highly cited)\r
30.\tXiaoling Ma(#); Mei Luo(#); Wei Gao(#); Jun Yuan; Qiaoshi An; Miao Zhang; Zhenghao Hu; Jinhua Gao; Jianxiao Wang; Yingping Zou(*); Chuluo Yang(*); Fujun Zhang(*), Achieving 14.11% efficiency of ternary polymer solar cells by simultaneously optimizing photon harvesting and exciton distribution, Journal of Materials Chemistry A, 2019, 7(13): 7843-7851 (影响因子=10.7, ESI highly cited)\r
31.\tZhenghao Hu; Zhi Wang; Fujun Zhang(*), Semitransparent polymer solar cells with 9.06% efficiency and 27.1% average visible transmittance obtained by employing a smart strategy, Journal of Materials Chemistry A, 2019, 7(12): 7025-7032 (影响因子=10.7)\r
32.\tXiaoling Ma(#); Zuo Xiao(#); Qiaoshi An; Miao Zhang; Zhenghao Hu; Jianxiao Wang; Liming Ding(*); Fujun Zhang(*), Simultaneously improved efficiency and average visible transmittance of semitransparent polymer solar cells with two ultra-narrow bandgap nonfullerene acceptors, Journal of Materials Chemistry A, 2018, 6(43): 21485-21492 (影响因子=10.7)\r
33.\tJianxiao Wang; Wei Gao; Qiaoshi An; Miao Zhang; Xiaoling Ma; Zhenghao Hu; Jian Zhang; ChuluoYang(*); Fujun Zhang(*), Ternary non-fullerene polymer solar cells with an efficiency of 11.6% by simultaneously optimizing photon harvesting and phase separation, Journal of Materials Chemistry A, 2018, 6(25): 11751-11758 (影响因子=10.7)\r
34.\tQiaoshi An(#); Wei Gao(#); Fujun Zhang(*); Jian Wang; Miao Zhang; Kailong Wu; Xiaoling Ma; Chuluo Yang; Zhenghao Hu; Chaoqun Jiao; Chuluo Yang(*), Energy level modulation of non-fullerene acceptors enables efficient organic solar cells with small energy loss, Journal of Materials Chemistry A, 2018, 6(6): 2468~2475 (影响因子=10.7, ESI highly cited) \r
35.\tXiaoling Ma; Fujun Zhang(*); Qiaoshi An; Qianqian Sun; Miao Zhang; Jianli Miao; Zhenghao Hua; Jian Zhang(*), A liquid crystal material as the third component for ternary polymer solar cells with an efficiency of 10.83% and enhanced stability, Journal of Materials Chemistry A, 2017, 5(25): 13145~13153 (影响因子=10.7) \r
36.\tMiao Zhang; Fujun Zhang(*); Qiaoshi An; Qianqian Sun; Wenbin Wang; Xiaoling Ma; Jian Zhang(*); Weihua Tang, Nematic liquid crystal materials as morphology regulator for ternary small molecule solar cells with power conversion efficiency exceeding 10%, Journal of Materials Chemistry A, 2017, 5(7): 3589~3598 (影响因子=10.7, ESI highly cited)\r
37.\tQianqian Sun; Fujun Zhang(*); Jian Wang; Qiaoshi An; Chen Zhao; Lingliang Li; Feng Teng; Bin Hu, A two-step strategy to clarify the roles of a solution processed PFN interfacial layer in highly efficient polymer solar cells, Journal of Materials Chemistry A, 2015, 3(36): 18432~18441 (影响因子=10.7) \r
38.\tQiaoshi An; Fujun Zhang(*); Qianqian Sun; Jian Wang; Lingliang Li; Jian Zhang; Weihua Tang; Zhenbo Deng, Efficient small molecular ternary solar cells by synergistically optimized photon harvesting and phase separation, Journal of Materials Chemistry A, 2015, 3(32): 16653~16662 (影响因子=10.7) \r
39.\tJianli Miao; Fujun Zhang(*), Recent progress on photomultiplication type organic photodetectors, Laser & Photonics Reviews, 2019, 13(2): 1800204 (影响因子=9.0, ESI highly cited)\r
40.\tJianli Miao; Fujun Zhang(*), Recent progress on highly sensitive perovskite photodetectors, Journal of Materials Chemistry C, 2019,7 (7): 1741~1791 (影响因子=6.6, ESI highly cited)\r
41.\tQiaoshi An; Xiaoling Ma; Jinhua Gao; Fujun Zhang(*), Solvent additive-free ternary polymer solar cells with 16.27% efficiency, Science Bulletin, 2019, 64(8): 504-506 (影响因子=6.2)\r
42.\tZhenghao Hu, Zhi Wang, Qiaoshi An, Fujun Zhang, Semitransparent polymer solar cells with 12.37% efficiency and 18.6% average visible transmittance, Science Bulletin, 2020, 65:131 (影响因子=6.2, ESI highly cited)\r
43.\tFujun Zhang(*); Xiaowei Xu; Weihua Tang(*); Jian Zhang; Zuliang Zhuo; Jian Wang; Jin Wang; Zheng Xu; Yongsheng Wang; Recent development of the inverted configuration organic solar cells, Solar Energy Materials & Solar Cells, 2011, 95, 1785-1799 (影响因子=4.8) 中国百篇最具影响国际学术论文 \r