| Synergistic effect of fluorination on both donor and acceptor materials for high performance non-fullerene polymer solar cells with 13.5% efficiency Q Fan, W Su, Y Wang, B Guo, Y Jiang, X Guo, F Liu, TP Russell, M Zhang, ... Science China Chemistry 61, 531-537, 2018 | 362 | 2018 |
| Mechanically robust all-polymer solar cells from narrow band gap acceptors with hetero-bridging atoms Q Fan, W Su, S Chen, W Kim, X Chen, B Lee, T Liu, UA Mendez-Romero, ... Joule 4 (3), 658-672, 2020 | 294 | 2020 |
| Chlorine substituted 2D-conjugated polymer for high-performance polymer solar cells with 13.1% efficiency via toluene processing Q Fan, Q Zhu, Z Xu, W Su, J Chen, J Wu, X Guo, W Ma, M Zhang, Y Li Nano Energy 48, 413-420, 2018 | 284 | 2018 |
| High‐performance as‐cast nonfullerene polymer solar cells with thicker active layer and large area exceeding 11% power conversion efficiency Q Fan, Y Wang, M Zhang, B Wu, X Guo, Y Jiang, W Li, B Guo, C Ye, W Su, ... Advanced Materials 30 (6), 1704546, 2018 | 266 | 2018 |
| Over 14% efficiency all-polymer solar cells enabled by a low bandgap polymer acceptor with low energy loss and efficient charge separation Q Fan, Q An, Y Lin, Y Xia, Q Li, M Zhang, W Su, W Peng, C Zhang, F Liu, ... Energy & Environmental Science 13 (12), 5017-5027, 2020 | 186 | 2020 |
| Two compatible nonfullerene acceptors with similar structures as alloy for efficient ternary polymer solar cells W Su, Q Fan, X Guo, X Meng, Z Bi, W Ma, M Zhang, Y Li Nano Energy 38, 510-517, 2017 | 159 | 2017 |
| Optimized active layer morphologies via ternary copolymerization of polymer donors for 17.6% efficiency organic solar cells with enhanced fill factor X Guo, Q Fan, J Wu, G Li, Z Peng, W Su, J Lin, L Hou, Y Qin, H Ade, L Ye, ... Angewandte Chemie 133 (5), 2352-2359, 2021 | 153 | 2021 |
| 11.2% Efficiency all-polymer solar cells with high open-circuit voltage Y Meng, J Wu, X Guo, W Su, L Zhu, J Fang, ZG Zhang, F Liu, M Zhang, ... Science China Chemistry 62, 845-850, 2019 | 142 | 2019 |
| High‐Performance Non‐Fullerene Polymer Solar Cells Based on Fluorine Substituted Wide Bandgap Copolymers Without Extra Treatments Q Fan, W Su, X Meng, X Guo, G Li, W Ma, M Zhang, Y Li Solar Rrl 1 (5), 1700020, 2017 | 122 | 2017 |
| A non‐conjugated polymer acceptor for efficient and thermally stable all‐polymer solar cells Q Fan, W Su, S Chen, T Liu, W Zhuang, R Ma, X Wen, Z Yin, Z Luo, X Guo, ... Angewandte Chemie International Edition 59 (45), 19835-19840, 2020 | 108 | 2020 |
| A New Polythiophene Derivative for High Efficiency Polymer Solar Cells with PCE over 9%. Q Fan, W Su, X Guo, B Guo, W Li, Y Zhang, K Wang, M Zhang, Y Li Advanced Energy Materials 6 (14), 2016 | 104 | 2016 |
| All‐polymer solar cells with over 16% efficiency and enhanced stability enabled by compatible solvent and polymer additives: Photovoltaics: Special Issue Dedicated to Professor … R Ma, J Yu, T Liu, G Zhang, Y Xiao, Z Luo, G Chai, Y Chen, Q Fan, W Su, ... Aggregate 3 (3), e58, 2022 | 103 | 2022 |
| Efficient ternary blend all-polymer solar cells with a polythiophene derivative as a hole-cascade material W Su, Q Fan, X Guo, B Guo, W Li, Y Zhang, M Zhang, Y Li Journal of Materials Chemistry A 4 (38), 14752-14760, 2016 | 98 | 2016 |
| High-performance nonfullerene polymer solar cells with open-circuit voltage over 1 V and energy loss as low as 0.54 eV Q Fan, Z Xu, X Guo, X Meng, W Li, W Su, X Ou, W Ma, M Zhang, Y Li Nano Energy 40, 20-26, 2017 | 82 | 2017 |
| High-performance nonfullerene polymer solar cells based on a fluorinated wide bandgap copolymer with a high open-circuit voltage of 1.04 V Y Wang, Q Fan, X Guo, W Li, B Guo, W Su, X Ou, M Zhang Journal of Materials Chemistry A 5 (42), 22180-22185, 2017 | 80 | 2017 |
| Side-chain engineering for efficient non-fullerene polymer solar cells based on a wide-bandgap polymer donor Q Fan, W Su, X Guo, Y Wang, J Chen, C Ye, M Zhang, Y Li Journal of Materials Chemistry A 5 (19), 9204-9209, 2017 | 79 | 2017 |
| Nonfullerene polymer solar cells based on a perylene monoimide acceptor with a high open‐circuit voltage of 1.3 V Y Zhang, X Guo, B Guo, W Su, M Zhang, Y Li Advanced Functional Materials 27 (10), 1603892, 2017 | 78 | 2017 |
| 19.28% Efficiency and Stable Polymer Solar Cells Enabled by Introducing an NIR‐Absorbing Guest Acceptor Q Fan, R Ma, Z Bi, X Liao, B Wu, S Zhang, W Su, J Fang, C Zhao, C Yan, ... Advanced Functional Materials 33 (8), 2211385, 2023 | 77 | 2023 |
| Nonhalogen solvent-processed polymer solar cells based on chlorine and trialkylsilyl substituted conjugated polymers achieve 12.8% efficiency W Su, G Li, Q Fan, Q Zhu, X Guo, J Chen, J Wu, W Ma, M Zhang, Y Li Journal of Materials Chemistry A 7 (5), 2351-2359, 2019 | 76 | 2019 |
| Selenium-containing medium bandgap copolymer for bulk heterojunction polymer solar cells with high efficiency of 9.8% Z Xu, Q Fan, X Meng, X Guo, W Su, W Ma, M Zhang, Y Li Chemistry of Materials 29 (11), 4811-4818, 2017 | 74 | 2017 |
