Email: hlzhong@sjtu.edu.cn
Address: 上海市东川路800号beat365B楼243室
2001-2005 B.S. Chemistry, Wuhan University, China
2005-2010 Ph.D. Polymer Chemistry and Physics, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, China
2016- Associate Professor, School of Chemistry and Chemical Engineering, Shanghai Jiao Tong University, China
2013-2016 Postdoctoral Research Associate, University of Washington, USA
2010-2013 Postdoctoral Research Associate, Imperial College London, UK
1) Organic functional materials;
2) Optical and electronic devices;
3) Conjugated polymer synthesis and modification.
[17] Shan, T.; Ding, K.; Yu, L.*; Wang, X.; Zhang, Y.; Zheng, X.; Chen, C.-C.; Peng, Q.; Zhong, H.*, Spatially Orthogonal 2D Sidechains Optimize Morphology in All-Small-Molecule Organic Solar Cells. Adv. Funct. Mater. 2021, 2100750.
[16] Deng, Z.; He, M.; Zhang, Y.; Ullah, F.; Ding, K.; Liang, J.; Zhang, Z.; Xu, H.; Qiu, Y.; Xie, Z.; Shan, T.; Chen, Z.; Zhong, H.; Chen, C.-C.*, Design of Low Crystallinity Spiro-Typed Hole Transporting Material for Planar Perovskite Solar Cells to Achieve 21.76% Efficiency. Chem. Mater. 2021, 33 (1), 285-297.
[15] Zhang, Y.; Wang, Y.; Xie, Z.; Shan, T.; Zhu, L.; Liu, F.; Zhong, H.*, Preparation of non-fullerene acceptors with a multi-asymmetric configuration in a one-pot reaction for organic solar cells. J. Mater. Chem. C 2020, 8 (48), 17229-17236.
[14] Shan, T.; Zhang, Y.; Wang, Y.; Xie, Z.; Wei, Q.; Xu, J.; Zhang, M.; Wang, C.; Bao, Q.; Wang, X.; Chen, C.-C.; Huang, J.; Chen, Q.*; Liu, F.*; Chen, L.*; Zhong, H.*, Universal and Versatile Morphology Engineering via Hot Fluorous Solvent Soaking for Organic Bulk Heterojunction. Nat. Commun. 2020, 11, 5585.
[13] Ding, K.; Shan, T.; Xu, J.; Li, M.; Wang, Y.; Zhang, Y.; Xie, Z.; Ma, Z.; Liu, F.; Zhong, H.*, A perylene diimide-containing acceptor enables high fill factor in organic solar cells. Chem. Commun. 2020, 56, 11433-11436.
[12] Zhang, Z.; Shan, T.; Zhang, Y.; Zhu, L.; Kong, L.; Liu, F.; Zhong, H.*, Isomerizing thieno[3,4-b]thiophene-based near-infrared non-fullerene acceptors towards efficient organic solar cells. J. Mater. Chem. C 2020, 8 (13), 4357-4364.
[11] Wang, Y.; Zhong, H.; Hong, Y.; Shan, T.; Ding, K.; Zhu, L.; Liu, F.; Wei, H.*; Yu, C.*; Zhong, H.*, Tailoring the molecular geometry of polyfluoride perylene diimide acceptors towards efficient organic solar cells. J. Mater. Chem. C 2020, 8 (24), 8224-8233.
[10] Zhang, Y.; Liu, Z.; Shan, T.; Wang, Y.; Zhu, L.; Li, T.; Liu, F.; Zhong, H.*, Tuning the molecular geometry and packing mode of non-fullerene acceptors by altering the bridge atoms towards efficient organic solar cells. Mater. Chem. Front. 2020, 4 (8), 2462-2471.
[9] Wang, X.; Wang, L.; Shan, T.; Leng, S.; Zhong, H.; Bao, Q.; Lu, Z.-H.*; Deng, L.-L.*; Chen, C.-C.*, Low-Temperature Aging Provides 22% Efficient Bromine-Free and Passivation Layer-Free Planar Perovskite Solar Cells. Nano-Micro Letters 2020, 12 (1), 84.
[8] Ding, K.; Wang, Y.; Shan, T.; Xu, J.; Bao, Q.; Liu, F.*; Zhong, H.*, Propeller-like acceptors with difluoride perylene diimides for organic solar cells. Org. Electron. 2020, 78, 105569.
[7] Yang, Y.; Shan, T.; Cao, J.; Wang, H.-C.; Wang, J.-K.; Zhong, H.*.; Xu, Y.-X.*, Unsymmetric Side Chains of Indacenodithiophene Copolymers Lead to Improved Packing and Device Performance. Chinese J. Poly. Sci. 2020, 38 (4), 342-348.
[6] Shan, T.; Hong, Y.; Zhu, L.; Wang, X.; Zhang, Y.; Ding, K.; Liu, F.; Chen, C.-C.; Zhong, H.*,Achieving Optimal Bulk Heterojunction in All-Polymer Solar Cells by Sequential Processing with Nonorthogonal Solvents. ACS Appl. Mater. Interfaces 2019, 11 (45), 42438-42446.
[5] Cao, J.; Shan, T.; Wang, J.-K.; Xu, Y.-X.*; Ren, X.*; Zhong, H.*, Stereoisomerism of ladder-type acceptor molecules and its effect on photovoltaic properties. Dyes Pigm. 2019, 165, 354-360.
[4] Ziffer, M. E.; Jo, S. B.; Zhong, H.; Ye, L.; Liu, H.; Lin, F.; Zhang, J.; Li, X.; Ade, H. W.; Jen, A. K. Y.*; Ginger, D. S.*, Long-Lived, Non-Geminate, Radiative Recombination of Photogenerated Charges in a Polymer/Small-Molecule Acceptor Photovoltaic Blend. J. Am. Chem. Soc. 2018, 140(31), 9996-10008.
[3] Ziffer, M. E.; Jo, S. B.; Liu, Y.; Zhong, H.; Mohammed, J. C.; Harrison, J. S.; Jen, A. K. Y.*; Ginger, D. S.*, Tuning H- and J-Aggregate Behavior in π-Conjugated Polymers via Noncovalent Interactions. J. Phys. Chem. C 2018, 122 (33), 18860-18869.
[2] Zhang, Z.-Y.; Ji, D.; Mao, W.; Cui, Y.; Wang, Q.; Han, L.; Zhong, H.; Wei, Z.; Zhao, Y.; Norgaard, K.; Li, T.*, Dry Chemstry of Ferrate(VI): A Solvent-free Mechanochemical Way for Versatile Green Oxidation. Angew. Chem., Int. Ed. 2018, 57 (34), 10949-10953.
[1] Zhong, H.; Ye, L.; Chen, J.-Y.; Jo, S. B.; Chueh, C.-C.; Carpenter, J. H.; Ade, H.*; Jen, A. K. Y.*, A regioregular conjugated polymer for high performance thick-film organic solar cells without processing additive. J. Mater. Chem. A 2017, 5 (21), 10517-10525.
本科生:《大学化学》
留学生:《高等有机化学》(英文)
《功能高分子学报》青年编委
《Advances in Materials Science and Engineering》客座编辑
2016年国家海外高层次引进人才青年项目
2020年上海交通大学“教书育人奖(集体)”一等奖
We seek highly motivated graduate students (Master or Ph.D. candidates) with the background of chemistry, polymer, material or related fields.
Postdoctoral positions are available. Candidates with Ph.D. degree in the areas of organic synthesis or optoelectronic devices are welcomed to apply.
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