Single-layered organic photovoltaics with double cascading charge transport pathways: 18% efficiencies M Zhang, L Zhu, G Zhou, T Hao, C Qiu, Z Zhao, Q Hu, BW Larson, H Zhu, ... Nature Communications 12 (1), 309, 2021 | 613 | 2021 |
Efficient organic solar cell with 16.88% efficiency enabled by refined acceptor crystallization and morphology with improved charge transfer and transport properties L Zhu, M Zhang, G Zhou, T Hao, J Xu, J Wang, C Qiu, N Prine, J Ali, ... Advanced Energy Materials 10 (18), 1904234, 2020 | 492 | 2020 |
An easily accessible isoindigo-based polymer for high-performance polymer solar cells E Wang, Z Ma, Z Zhang, K Vandewal, P Henriksson, O Inganas, F Zhang, ... Journal of the American Chemical Society 133 (36), 14244-14247, 2011 | 438 | 2011 |
A well‐mixed phase formed by two compatible non‐fullerene acceptors enables ternary organic solar cells with efficiency over 18.6% Y Cai, Y Li, R Wang, H Wu, Z Chen, J Zhang, Z Ma, X Hao, Y Zhao, ... Advanced Materials 33 (33), 2101733, 2021 | 395 | 2021 |
Approaching 18% efficiency of ternary organic photovoltaics with wide bandgap polymer donor and well compatible Y6: Y6-1O as acceptor X Ma, A Zeng, J Gao, Z Hu, C Xu, JH Son, SY Jeong, C Zhang, M Li, ... National Science Review 8 (8), nwaa305, 2021 | 236 | 2021 |
Quantification of Quantum efficiency and energy losses in low bandgap polymer: fullerene solar cells with high open‐circuit voltage K Vandewal, Z Ma, J Bergqvist, Z Tang, E Wang, P Henriksson, ... Advanced Functional Materials 22 (16), 3480-3490, 2012 | 225 | 2012 |
Solution‐processed organic solar cells with high open‐circuit voltage of 1.3 V and low non‐radiative voltage loss of 0.16 V N An, Y Cai, H Wu, A Tang, K Zhang, X Hao, Z Ma, Q Guo, HS Ryu, ... Advanced Materials 32 (39), 2002122, 2020 | 183 | 2020 |
Compromising charge generation and recombination of organic photovoltaics with mixed diluent strategy for certified 19.4% efficiency T Chen, S Li, Y Li, Z Chen, H Wu, Y Lin, Y Gao, M Wang, G Ding, J Min, ... Advanced Materials 35 (21), 2300400, 2023 | 181 | 2023 |
Polymer: fullerene bimolecular crystals for near‐infrared spectroscopic photodetectors Z Tang, Z Ma, A Sánchez‐Díaz, S Ullbrich, Y Liu, B Siegmund, A Mischok, ... Advanced Materials 29 (33), 1702184, 2017 | 181 | 2017 |
Synthesis and characterization of benzodithiophene–isoindigo polymers for solar cells Z Ma, E Wang, ME Jarvid, P Henriksson, O Inganäs, F Zhang, ... Journal of Materials Chemistry 22 (5), 2306-2314, 2012 | 180 | 2012 |
Ethanedithiol treatment of solution‐processed ZnO thin films: controlling the intragap states of electron transporting interlayers for efficient and stable inverted organic … S Bai, Y Jin, X Liang, Z Ye, Z Wu, B Sun, Z Ma, Z Tang, J Wang, U Würfel, ... Advanced energy materials 5 (5), 1401606, 2015 | 178 | 2015 |
An isoindigo-based low band gap polymer for efficient polymer solar cells with high photo-voltage E Wang, Z Ma, Z Zhang, P Henriksson, O Inganäs, F Zhang, ... Chemical Communications 47 (17), 4908-4910, 2011 | 173 | 2011 |
Influences of surface roughness of ZnO electron transport layer on the photovoltaic performance of organic inverted solar cells Z Ma, Z Tang, E Wang, MR Andersson, O Inganäs, F Zhang The Journal of Physical Chemistry C 116 (46), 24462-24468, 2012 | 157 | 2012 |
Side-chain architectures of 2, 7-carbazole and quinoxaline-based polymers for efficient polymer solar cells E Wang, L Hou, Z Wang, Z Ma, S Hellstrom, W Zhuang, F Zhang, ... Macromolecules 44 (7), 2067-2073, 2011 | 145 | 2011 |
Semi‐transparent tandem organic solar cells with 90% Internal Quantum Efficiency Z Tang, Z George, Z Ma, J Bergqvist, K Tvingstedt, K Vandewal, E Wang, ... Advanced Energy Materials 2 (12), 1467-1476, 2012 | 134 | 2012 |
High‐efficiency organic solar cells based on a low‐cost fully non‐fused electron acceptor Y Zhou, M Li, H Lu, H Jin, X Wang, Y Zhang, S Shen, Z Ma, J Song, Z Bo Advanced Functional Materials 31 (27), 2101742, 2021 | 133 | 2021 |
Alkyl‐chain branching of non‐fullerene acceptors flanking conjugated side groups toward highly efficient organic solar cells J Zhang, F Bai, I Angunawela, X Xu, S Luo, C Li, G Chai, H Yu, Y Chen, ... Advanced Energy Materials 11 (47), 2102596, 2021 | 131 | 2021 |
Structure–property relationships of oligothiophene–isoindigo polymers for efficient bulk-heterojunction solar cells Z Ma, W Sun, S Himmelberger, K Vandewal, Z Tang, J Bergqvist, A Salleo, ... Energy & Environmental Science 7 (1), 361-369, 2014 | 116 | 2014 |
9-Alkylidene-9H-Fluorene-Containing Polymer for High-Efficiency Polymer Solar Cells C Du, C Li, W Li, X Chen, Z Bo, C Veit, Z Ma, U Wuerfel, H Zhu, W Hu, ... Macromolecules 44 (19), 7617-7624, 2011 | 112 | 2011 |
Central unit fluorination of non‐fullerene acceptors enables highly efficient organic solar cells with over 18% efficiency H Chen, H Liang, Z Guo, Y Zhu, Z Zhang, Z Li, X Cao, H Wang, W Feng, ... Angewandte Chemie 134 (41), e202209580, 2022 | 104 | 2022 |