2013年发表文章
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Zhang, W.; Wang, Y. W.; Hu, R.; Fu, L. M.; Ai, X. C.; Zhang, J. P.*; Hou, J. H.*: Mechanism of Primary Charge Photogeneration in Polyfluorene Copolymer/Fullerene Blends and Influence of the Donor/Acceptor Lowest Unoccupied Molecular Orbital Level Offset. J. Phys. Chem. C 2013, 117, 735-749.【PDF】
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Zhang, W.; Huang, Y.; Xing, Y. D.; Jing, Y.; Ye, L.; Fu, L. M.; Ai, X. C.; Hou, J. H.*; Zhang, J. P.*: Subnanosecond charge photogeneration and recombination in polyfluorene copolymer-fullerene solar cell: Effects of electric field. Optics Express 2013, 21, A241-A249. 【PDF】
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Wu, Y.; Jing, Y.; Guo, X.; Zhang, S. Q.; Zhang, M. J.; Huo, L. J.; Hou, J. H.*: A thieno 3,4-f isoindole-5,7-dione based copolymer for polymer solar cells. Poly. Chem. 2013, 4, 536-541. 【PDF】
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Huo, L.; Li, Z.; Guo, X.; Wu, Y.; Zhang, M.; Ye, L.; Zhang, S.; Hou, J.*: Benzodifuran-alt-thienothiophene based low band gap copolymers: substituent effects on their molecular energy levels and photovoltaic properties. Poly. Chem. 2013, 4, 3047-3056. 【PDF】
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Zhang, S.; Ye, L.; Wang, Q.; Li, Z.; Guo, X.; Huo, L.; Fan, H.*; Hou, J.*: Enhanced Photovoltaic Performance of Diketopyrrolopyrrole (DPP) Based Polymers with Extended π-Conjugation. J. Phys. Chem. C 2013, 117, 9550–9557.【PDF】
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Qian, D.; Xu, Q.; Hou, X.; Wang, F.; Hou, J.*; Tan, Z. a.*: Stabilization of the film morphology in polymer: Fullerene heterojunction solar cells with photocrosslinkable bromine-functionalized low-bandgap copolymers. J. Polym. Sci. A Polym. Chem. 2013, 51, 3123-3131.【PDF】
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Huang, Y.; Liu, F.; Guo, X.; Zhang, W.; Gu, Y.; Zhang, J.*; Han, C. C.; Russell, T. P.*; Hou, J.*: Manipulating Backbone Structure to Enhance Low Band Gap Polymer Photovoltaic Performance. Adv. Energy Mater. 2013, 3, 930–937【PDF】
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Wu, Y., Li, Z., Ma, W.*, Huang, Y., Huo, L.*, Guo, X., Zhang, M., Ade, H. and Hou, J.*, PDT-S-T: A New Polymer with Optimized Molecular Conformation for Controlled Aggregation and π–π Stacking and Its Application in Efficient Photovoltaic Devices. Adv. Mater. 2013, 25, 3449-3455.【PDF】
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Qian, D.; Ma, W.*; Li, Z.; Guo, X.; Zhang, S.; Ye, L.; Ade, H.; Tan, Z. a.*; Hou, J.*, Molecular Design towards Efficient Polymer Solar Cell with High Polymer Content. J. Am. Chem. Soc. 2013, 135, 8464–8467.【PDF】
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Yong, W.; Zhang, M.*; Xin, X.; Li, Z.; Wu, Y.; Guo, X.; Yang, Z.*; Hou, J.*, Solution-processed indacenodithiophene-based small molecule for bulk heterojunction solar cells. J. Mater. Chem. A 2013, 1, 14214-14220.【PDF】
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Zhang, Z.-G.; Li, H.; Qi, B.; Chi, D.; Jin, Z.; Qi, Z.; Hou, J.*; Li, Y.*; Wang, J.*, Amine group functionalized fullerene derivatives as cathode buffer layers for high performance polymer solar cells. J. Mater. Chem. A 2013, 1, 9624-9629.【PDF】
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Li, X.; Choy, W. C. H.*; Xie, F.; Zhang, S.; Hou, J., Room-temperature solution-processed molybdenum oxide as a hole transport layer with Ag nanoparticles for highly efficient inverted organic solar cells. J. Mater. Chem. A 2013, 1, 6614-6621.【PDF】
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Xie, F.-x.; Choy, W. C. H.*; Sha, W. E. I.; Zhang, D.; Zhang, S.; Li, X.; Leung, C.-w.; Hou, J., Enhanced charge extraction in organic solar cells through electron accumulation effects induced by metal nanoparticles. Energy Environ. Sci. 2013, 6, 3372-3379.【PDF】
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Xie, F.; Choy, W. C. H.*; Wang, C.; Li, X.; Zhang, S.; Hou, J., Low-Temperature Solution-Processed Hydrogen Molybdenum and Vanadium Bronzes for an Efficient Hole-Transport Layer in Organic Electronics. Adv. Mater. 2013, 25, 2051-2055.【PDF】
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Lv, M.; Li, S.; Jasieniak, J. J.; Hou, J.; Zhu, J.*; Tan, Z. a.*; Watkins, S. E.; Li, Y.*; Chen, X.*, A Hyperbranched Conjugated Polymer as the Cathode Interlayer for High Performance Polymer Solar Cells. Adv. Mater. 2013, DOI: 10.1002/adma.201302726.【PDF】
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Ma, W.; Ye, L.; Zhang, S.; Hou, J.*; Ade, H.*, Competition between morphological attributes in the thermal annealing and additive processing of polymer soalr cells. J. Mater. Chem. C, 2013, 1, 5023–5030.【PDF】
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Ye, L.; Jing, Y.; Guo, X.; Sun, H.; Zhang, S.; Zhang, M.; Huo, L.; Hou, J.*, Remove the Residual Additives toward Enhanced Efficiency with Higher Reproducibility in Polymer Solar Cells. J. Phys. Chem. C, 2013, 117, 14920–14928.【PDF】
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Zhang, X.; Lu, Z.; Ye, L.; Zhan, C.*; Hou, J.*; Zhang, S.; Jiang, B.; Zhao, Y.; Huang, J.; Zhang, S.; Liu, Y.; Shi, Q.; Liu, Y.; Yao, J.*, A Potential Perylene Diimide Dimer-Based Acceptor Material for Highly Efficient Solution-Processed Non-Fullerene Organic Solar Cells with 4.03% Efficiency. Adv. Mater. 2013, 25, 5791-5797.【PDF】
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Zhang, M.; Gu, Y.; Guo, X.; Liu, F.; Zhang, S.; Huo, L.; Russell, T. P.*; Hou, J.*, Efficient Polymer Solar Cells Based on Benzothiadiazole and Alkylphenyl Substituted Benzodithiophene with a Power Conversion Efficiency over 8%. Adv. Mater. 2013, 25, 4944-4949.【PDF】
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Huo, M. M.; Liang, R.; Xing, Y. D.; Hu, R.; Zhao, N. J.; Zhang, W.; Fu, L. M.; Ai, X. C.; Zhang, J. P.*; Hou, J. H.*, Side-chain effects on the solution-phase conformations and charge photogeneration dynamics of low-bandgap copolymers. J. Chem. Phys. 2013, 139 (12).
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Ye, L.; Zhang, S.; Qian, D.; Wang, Q.; Hou, J., Application of Bis-PCBM in Polymer Solar Cells with Improved Voltage. J. Phys. Chem. C 2013, 117(48), 25360-25366【PDF】(News by Vertical News)
Book Chapters
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Jianhui Hou, Xia Guo, Chapter 2: Active Layer Materials for Organic Solar Cells, Organic Solar Cells: Materials and Device Physics, Edited by Choy, Wallace C.H. Published by Springer Group, 2013, DOI: 10.1007/978-1-4471-4823-4_2