Artikler med krav om offentlig adgang - Francis R. LinFå flere oplysninger
Ikke tilgængelige nogen steder: 41
Renewed prospects for organic photovoltaics
G Zhang, FR Lin, F Qi, T Heumüller, A Distler, HJ Egelhaaf, N Li, ...
Chemical Reviews 122 (18), 14180-14274, 2022
Krav: US Department of Defense, National Natural Science Foundation of China …
Regulating surface termination for efficient inverted perovskite solar cells with greater than 23% efficiency
F Li, X Deng, F Qi, Z Li, D Liu, D Shen, M Qin, S Wu, F Lin, SH Jang, ...
Journal of the American Chemical Society 142 (47), 20134-20142, 2020
Krav: US Department of Defense, Research Grants Council, Hong Kong
Dithienopicenocarbazole-based acceptors for efficient organic solar cells with optoelectronic response over 1000 nm and an extremely low energy loss
Z Yao, X Liao, K Gao, F Lin, X Xu, X Shi, L Zuo, F Liu, Y Chen, AKY Jen
Journal of the American Chemical Society 140 (6), 2054-2057, 2018
Krav: US Department of Energy, US Department of Defense, National Natural Science …
2D metal–organic framework for stable perovskite solar cells with minimized lead leakage
S Wu, Z Li, MQ Li, Y Diao, F Lin, T Liu, J Zhang, P Tieu, W Gao, F Qi, ...
Nature Nanotechnology 15 (11), 934-940, 2020
Krav: US National Science Foundation, Research Grants Council, Hong Kong
A non-fullerene acceptor with enhanced intermolecular π-core interaction for high-performance organic solar cells
F Lin, K Jiang, W Kaminsky, Z Zhu, AKY Jen
Journal of the American Chemical Society 142 (36), 15246-15251, 2020
Krav: US Department of Defense
Highly efficient organic solar cells based on S, N-heteroacene non-fullerene acceptors
C Huang, X Liao, K Gao, L Zuo, F Lin, X Shi, CZ Li, H Liu, X Li, F Liu, ...
Chemistry of Materials 30 (15), 5429-5434, 2018
Krav: US Department of Energy, US Department of Defense, National Natural Science …
Design of a highly crystalline low-band gap fused-ring electron acceptor for high-efficiency solar cells with low energy loss
X Shi, L Zuo, SB Jo, K Gao, F Lin, F Liu, AKY Jen
Chemistry of Materials 29 (19), 8369-8376, 2017
Krav: US Department of Energy, US Department of Defense
Dilution effect for highly efficient multiple-component organic solar cells
L Zuo, SB Jo, Y Li, Y Meng, RJ Stoddard, Y Liu, F Lin, X Shi, F Liu, ...
Nature nanotechnology 17 (1), 53-60, 2022
Krav: US Department of Defense, National Natural Science Foundation of China
Multi‐selenophene‐containing narrow bandgap polymer acceptors for all‐polymer solar cells with over 15% efficiency and high reproducibility
Q Fan, H Fu, Q Wu, Z Wu, F Lin, Z Zhu, J Min, HY Woo, AKY Jen
Angewandte Chemie International Edition 60 (29), 15935-15943, 2021
Krav: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Target therapy for buried interface enables stable perovskite solar cells with 25.05% efficiency
X Ji, L Bi, Q Fu, B Li, J Wang, SY Jeong, K Feng, S Ma, Q Liao, FR Lin, ...
Advanced Materials 35 (39), 2303665, 2023
Krav: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Deciphering the Roles of MA-Based Volatile Additives for α-FAPbI3 to Enable Efficient Inverted Perovskite Solar Cells
L Bi, Q Fu, Z Zeng, Y Wang, FR Lin, Y Cheng, HL Yip, SW Tsang, AKY Jen
Journal of the American Chemical Society 145 (10), 5920-5929, 2023
Krav: Research Grants Council, Hong Kong
Synergistical dipole–dipole interaction induced self‐assembly of phenoxazine‐based hole‐transporting materials for efficient and stable inverted perovskite solar cells
N Cai, F Li, Y Chen, R Luo, T Hu, F Lin, SM Yiu, D Liu, D Lei, Z Zhu, ...
Angewandte Chemie 133 (37), 20600-20605, 2021
Krav: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Regio-specific selenium substitution in non-fullerene acceptors for efficient organic solar cells
F Lin, L Zuo, K Gao, M Zhang, SB Jo, F Liu, AKY Jen
Chemistry of Materials 31 (17), 6770-6778, 2019
Krav: US Department of Energy, US Department of Defense, National Natural Science …
Compact hole‐selective self‐assembled monolayers enabled by disassembling micelles in solution for efficient perovskite solar cells
M Liu, L Bi, W Jiang, Z Zeng, SW Tsang, FR Lin, AKY Jen
Advanced Materials 35 (46), 2304415, 2023
Krav: Research Grants Council, Hong Kong
Self-assembled monolayers for interfacial engineering in solution-processed thin-film electronic devices: design, fabrication, and applications
M Li, M Liu, F Qi, FR Lin, AKY Jen
Chemical Reviews 124 (5), 2138-2204, 2024
Krav: Research Grants Council, Hong Kong
Homogeneous grain boundary passivation in wide‐bandgap perovskite films enables fabrication of monolithic perovskite/organic tandem solar cells with over 21% efficiency
YM Xie, Q Yao, Z Zeng, Q Xue, T Niu, R Xia, Y Cheng, F Lin, SW Tsang, ...
Advanced Functional Materials 32 (19), 2112126, 2022
Krav: National Natural Science Foundation of China
Asymmetric Isomer Effects in Benzo[c ][1,2,5]thiadiazole‐Fused Nonacyclic Acceptors: Dielectric Constant and Molecular Crystallinity Control for Significant …
W Gao, B Fan, F Qi, F Lin, R Sun, X Xia, J Gao, C Zhong, X Lu, J Min, ...
Advanced Functional Materials 31 (37), 2104369, 2021
Krav: US Department of Defense, National Natural Science Foundation of China …
Intramolecular chloro–sulfur interaction and asymmetric side‐chain isomerization to balance crystallinity and miscibility in all‐small‐molecule solar cells
W Gao, M Jiang, Z Wu, B Fan, W Jiang, N Cai, H Xie, FR Lin, J Luo, Q An, ...
Angewandte Chemie International Edition 61 (33), e202205168, 2022
Krav: US Department of Defense, National Natural Science Foundation of China …
Non-fullerene acceptor doped block copolymer for efficient and stable organic solar cells
Y Wu, Q Fan, B Fan, F Qi, Z Wu, FR Lin, Y Li, CS Lee, HY Woo, HL Yip, ...
ACS Energy Letters 7 (7), 2196-2202, 2022
Krav: US Department of Defense, Research Grants Council, Hong Kong
All‐inorganic perovskite‐based monolithic perovskite/organic tandem solar cells with 23.21% efficiency by dual‐interface engineering
SQ Sun, X Xu, Q Sun, Q Yao, Y Cai, XY Li, YL Xu, W He, M Zhu, X Lv, ...
Advanced Energy Materials 13 (16), 2204347, 2023
Krav: National Natural Science Foundation of China
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