18% Efficiency organic solar cells Q Liu, Y Jiang, K Jin, J Qin, J Xu, W Li, J Xiong, J Liu, Z Xiao, K Sun, ... Science Bulletin 65 (4), 272-275, 2020 | 2764 | 2020 |
Organic and solution-processed tandem solar cells with 17.3% efficiency L Meng, Y Zhang, X Wan, C Li, X Zhang, Y Wang, X Ke, Z Xiao, L Ding, ... Science 361 (6407), 1094-1098, 2018 | 2657 | 2018 |
Ternary organic solar cells offer 14% power conversion efficiency Z Xiao, X Jia, L Ding Sci. Bull 62 (23), 1562-1564, 2017 | 728 | 2017 |
Advances in perovskite solar cells C Zuo, HJ Bolink, H Han, J Huang, D Cahen, L Ding Advanced Science 3 (7), 1500324, 2016 | 615 | 2016 |
Solution-Processed Cu2O and CuO as Hole Transport Materials for Efficient Perovskite Solar Cells. C Zuo, L Ding Small (Weinheim an der Bergstrasse, Germany) 11 (41), 5528-5532, 2015 | 533 | 2015 |
An 80.11% FF record achieved for perovskite solar cells by using the NH 4 Cl additive C Zuo, L Ding Nanoscale 6 (17), 9935-9938, 2014 | 436 | 2014 |
A history and perspective of non‐fullerene electron acceptors for organic solar cells A Armin, W Li, OJ Sandberg, Z Xiao, L Ding, J Nelson, D Neher, ... Advanced Energy Materials 11 (15), 2003570, 2021 | 427 | 2021 |
The main progress of perovskite solar cells in 2020–2021 T Wu, Z Qin, Y Wang, Y Wu, W Chen, S Zhang, M Cai, S Dai, J Zhang, ... Nano-Micro Letters 13, 1-18, 2021 | 406 | 2021 |
26 mA cm− 2 Jsc from organic solar cells with a low-bandgap nonfullerene acceptor Z Xiao, X Jia, D Li, S Wang, X Geng, F Liu, J Chen, S Yang, TP Russell, ... Science Bulletin 62 (22), 1494-1496, 2017 | 400 | 2017 |
One-step roll-to-roll air processed high efficiency perovskite solar cells C Zuo, D Vak, D Angmo, L Ding, M Gao Nano Energy 46, 185-192, 2018 | 323 | 2018 |
Direct observation on p-to n-type transformation of perovskite surface region during defect passivation driving high photovoltaic efficiency S Xiong, Z Hou, S Zou, X Lu, J Yang, T Hao, Z Zhou, J Xu, Y Zeng, W Xiao, ... Joule 5 (2), 467-480, 2021 | 285 | 2021 |
Thermostable single-junction organic solar cells with a power conversion efficiency of 14.62% H Li, Z Xiao, L Ding, J Wang Science bulletin 63 (6), 340-342, 2018 | 284 | 2018 |
Lead‐free Perovskite Materials (NH4)3Sb2IxBr9−x C Zuo, L Ding Angewandte Chemie 129 (23), 6628-6632, 2017 | 264 | 2017 |
Modified PEDOT Layer Makes a 1.52 V Voc for Perovskite/PCBM Solar Cells C Zuo, L Ding Advanced Energy Materials 7 (2), 1601193, 2017 | 232 | 2017 |
Molecular order control of non-fullerene acceptors for high-efficiency polymer solar cells W Li, M Chen, J Cai, ELK Spooner, H Zhang, RS Gurney, D Liu, Z Xiao, ... Joule 3 (3), 819-833, 2019 | 230 | 2019 |
Alloy acceptor: superior alternative to PCBM toward efficient and stable organic solar cells P Cheng, C Yan, Y Wu, J Wang, M Qin, Q An, J Cao, L Huo, F Zhang, ... Adv. Mater 28 (36), 8021-8028, 2016 | 230 | 2016 |
Halide Perovskite, a potential scintillator for X‐ray detection F Zhou, Z Li, W Lan, Q Wang, L Ding, Z Jin Small Methods 4 (10), 2000506, 2020 | 221 | 2020 |
Progress of the key materials for organic solar cells Y Tong, Z Xiao, X Du, C Zuo, Y Li, M Lv, Y Yuan, C Yi, F Hao, Y Hua, T Lei, ... Science China Chemistry 63, 758-765, 2020 | 217 | 2020 |
Pushing commercialization of perovskite solar cells by improving their intrinsic stability Y Cheng, L Ding Energy & Environmental Science 14 (6), 3233-3255, 2021 | 215 | 2021 |
Lead‐free perovskite photodetectors: progress, challenges, and opportunities Y Zhang, Y Ma, Y Wang, X Zhang, C Zuo, L Shen, L Ding Advanced Materials 33 (26), 2006691, 2021 | 208 | 2021 |