| 14.1% CsPbI3 Perovskite Quantum Dot Solar Cells via Cesium Cation Passivation X Ling, S Zhou, J Yuan, J Shi, Y Qian, BW Larson, Q Zhao, C Qin, F Li, ... Advanced Energy Materials 9 (28), 1900721, 2019 | 361 | 2019 |
| Dopant‐free spiro‐triphenylamine/fluorene as hole‐transporting material for perovskite solar cells with enhanced efficiency and stability YK Wang, ZC Yuan, GZ Shi, YX Li, Q Li, F Hui, BQ Sun, ZQ Jiang, LS Liao Advanced Functional Materials 26 (9), 1375-1381, 2016 | 273 | 2016 |
| Improved performance of inverted planar perovskite solar cells with F4-TCNQ doped PEDOT: PSS hole transport layers D Liu, Y Li, J Yuan, Q Hong, G Shi, D Yuan, J Wei, C Huang, J Tang, ... Journal of Materials Chemistry A 5 (12), 5701-5708, 2017 | 263 | 2017 |
| High‐efficiency PbS quantum‐dot solar cells with greatly simplified fabrication processing via “solvent‐curing” K Lu, Y Wang, Z Liu, L Han, G Shi, H Fang, J Chen, X Ye, S Chen, F Yang, ... Advanced Materials 30 (25), 1707572, 2018 | 204 | 2018 |
| In situ passivation for efficient PbS quantum dot solar cells by precursor engineering Y Wang, K Lu, L Han, Z Liu, G Shi, H Fang, S Chen, T Wu, F Yang, M Gu, ... Advanced Materials 30 (16), 1704871, 2018 | 183 | 2018 |
| Room-Temperature Processed Nb2O5 as the Electron-Transporting Layer for Efficient Planar Perovskite Solar Cells X Ling, J Yuan, D Liu, Y Wang, Y Zhang, S Chen, H Wu, F Jin, F Wu, G Shi, ... ACS applied materials & interfaces 9 (27), 23181-23188, 2017 | 156 | 2017 |
| Tuning the Surface-Passivating Ligand Anchoring Position Enables Phase Robustness in CsPbI3 Perovskite Quantum Dot Solar Cells J Khan, X Zhang, J Yuan, Y Wang, G Shi, R Patterson, J Shi, X Ling, L Hu, ... ACS Energy Letters 5 (10), 3322-3329, 2020 | 136 | 2020 |
| Efficient PbS quantum dot solar cells employing a conventional structure K Lu, Y Wang, J Yuan, Z Cui, G Shi, S Shi, L Han, S Chen, Y Zhang, ... Journal of Materials Chemistry A 5 (45), 23960-23966, 2017 | 134 | 2017 |
| Inverted planar heterojunction perovskite solar cells employing polymer as the electron conductor W Wang, J Yuan, G Shi, X Zhu, S Shi, Z Liu, L Han, HQ Wang, W Ma ACS Applied Materials & Interfaces 7 (7), 3994-3999, 2015 | 121 | 2015 |
| Improved All‐Polymer Solar Cell Performance by Using Matched Polymer Acceptor S Shi, J Yuan, G Ding, M Ford, K Lu, G Shi, J Sun, X Ling, Y Li, W Ma Advanced Functional Materials 26 (31), 5669-5678, 2016 | 119 | 2016 |
| The effect of water on colloidal quantum dot solar cells G Shi, H Wang, Y Zhang, C Cheng, T Zhai, B Chen, X Liu, R Jono, X Mao, ... Nature Communications 12 (1), 4381, 2021 | 101 | 2021 |
| Stable and highly efficient PbS quantum dot tandem solar cells employing a rationally designed recombination layer G Shi, Y Wang, Z Liu, L Han, J Liu, Y Wang, K Lu, S Chen, X Ling, Y Li, ... Advanced Energy Materials 7 (15), 1602667, 2017 | 88 | 2017 |
| Interfacial Energy Level Tuning for Efficient and Thermostable CsPbI2Br Perovskite Solar Cells EC Shen, JD Chen, Y Tian, YX Luo, Y Shen, Q Sun, TY Jin, GZ Shi, YQ Li, ... Advanced Science 7 (1), 1901952, 2020 | 87 | 2020 |
| Broadband enhancement of PbS quantum dot solar cells by the synergistic effect of plasmonic gold nanobipyramids and nanospheres S Chen, Y Wang, Q Liu, G Shi, Z Liu, K Lu, L Han, X Ling, H Zhang, ... Advanced Energy Materials 8 (8), 1701194, 2018 | 85 | 2018 |
| Engineering the morphology via processing additives in multiple all-polymer solar cells for improved performance J Yuan, Y Xu, G Shi, X Ling, L Ying, F Huang, TH Lee, HY Woo, JY Kim, ... Journal of Materials Chemistry A 6 (22), 10421-10432, 2018 | 78 | 2018 |
| Breaking the size limitation of directly‐synthesized PbS quantum dot inks toward efficient short‐wavelength infrared optoelectronic applications Y Liu, Y Gao, Q Yang, G Xu, X Zhou, G Shi, X Lyu, H Wu, J Liu, S Fang, ... Angewandte Chemie International Edition 62 (17), e202300396, 2023 | 75 | 2023 |
| Merging passivation in synthesis enabling the lowest open‐circuit voltage loss for PbS quantum dot solar cells Y Liu, H Wu, G Shi, Y Li, Y Gao, S Fang, H Tang, W Chen, T Ma, I Khan, ... Advanced Materials 35 (5), 2207293, 2023 | 75 | 2023 |
| Perovskite solar cells consisting of PTAA modified with monomolecular layer and application to all‐perovskite tandem solar cells with efficiency over 25% H Bi, Y Fujiwara, G Kapil, D Tavgeniene, Z Zhang, L Wang, C Ding, ... Advanced Functional Materials 33 (32), 2300089, 2023 | 74 | 2023 |
| High efficiency all-polymer tandem solar cells J Yuan, J Gu, G Shi, J Sun, HQ Wang, W Ma Scientific reports 6 (1), 26459, 2016 | 65 | 2016 |
| Homologous bromides treatment for improving the open‐circuit voltage of perovskite solar cells Y Li, W Xu, N Mussakhanuly, Y Cho, J Bing, J Zheng, S Tang, Y Liu, G Shi, ... Advanced Materials 34 (6), 2106280, 2022 | 64 | 2022 |
Wanli MaProfessor, Institue of Functional Nano & Soft Materials (FUNSOM), Soochow University, ChinaVerified email at suda.edu.cn
