Общедоступные статьи - Wenchao HuangПодробнее...
30 статей недоступны нигде
A fast deposition‐crystallization procedure for highly efficient lead iodide perovskite thin‐film solar cells
M Xiao, F Huang, W Huang, Y Dkhissi, Y Zhu, J Etheridge, A Gray‐Weale, ...
Angewandte Chemie International Edition 53 (37), 9898-9903, 2014
Финансирование: Australian Research Council
Gas-assisted preparation of lead iodide perovskite films consisting of a monolayer of single crystalline grains for high efficiency planar solar cells
F Huang, Y Dkhissi, W Huang, M Xiao, I Benesperi, S Rubanov, Y Zhu, ...
Nano energy 10, 10-18, 2014
Финансирование: Australian Research Council
Highly efficient all‐small‐molecule organic solar cells with appropriate active layer morphology by side chain engineering of donor molecules and thermal annealing
B Qiu, Z Chen, S Qin, J Yao, W Huang, L Meng, H Zhu, Y Yang, ZG Zhang, ...
Advanced Materials 32 (21), 1908373, 2020
Финансирование: National Natural Science Foundation of China
A Quinoxaline‐Based D–A Copolymer Donor Achieving 17.62% Efficiency of Organic Solar Cells
C Zhu, L Meng, J Zhang, S Qin, W Lai, B Qiu, J Yuan, Y Wan, W Huang, ...
Advanced Materials 33 (23), 2100474, 2021
Финансирование: National Natural Science Foundation of China
Buried interface molecular hybrid for inverted perovskite solar cells
S Liu, J Li, W Xiao, R Chen, Z Sun, Y Zhang, X Lei, S Hu, M Kober-Czerny, ...
Nature 632 (8025), 536-542, 2024
Финансирование: UK Engineering and Physical Sciences Research Council, European Commission
Promoting charge separation resulting in ternary organic solar cells efficiency over 17.5%
Q Ma, Z Jia, L Meng, J Zhang, H Zhang, W Huang, J Yuan, F Gao, Y Wan, ...
Nano Energy 78, 105272, 2020
Финансирование: National Natural Science Foundation of China
17% efficient printable mesoscopic PIN metal oxide framework perovskite solar cells using cesium-containing triple cation perovskite
S Liu, W Huang, P Liao, N Pootrakulchote, H Li, J Lu, J Li, F Huang, ...
Journal of Materials Chemistry A 5 (44), 22952-22958, 2017
Финансирование: Swiss National Science Foundation, Australian Research Council, National …
Unraveling the morphology of high efficiency polymer solar cells based on the donor polymer PBDTTT‐EFT
W Huang, E Gann, L Thomsen, C Dong, YB Cheng, CR McNeill
Advanced Energy Materials 5 (7), 1401259, 2015
Финансирование: Australian Research Council
Atomically thin lateral p–n junction photodetector with large effective detection area
ZQ Xu, Y Zhang, Z Wang, Y Shen, W Huang, X Xia, W Yu, Y Xue, L Sun, ...
2D Materials 3 (4), 041001, 2016
Финансирование: National Natural Science Foundation of China
A nontoxic bifunctional (anti) solvent as digestive‐ripening agent for high‐performance perovskite solar cells
Y Yun, F Wang, H Huang, Y Fang, S Liu, W Huang, Z Cheng, Y Liu, Y Cao, ...
Advanced Materials 32 (14), 1907123, 2020
Финансирование: National Natural Science Foundation of China
20% efficient perovskite solar cells with 2D electron transporting layer
X Zhao, S Liu, H Zhang, SY Chang, W Huang, B Zhu, Y Shen, C Shen, ...
Advanced Functional Materials 29 (4), 1805168, 2019
Финансирование: Swiss National Science Foundation, National Natural Science Foundation of China
Stable high efficiency dye-sensitized solar cells based on a cobalt polymer gel electrolyte
W Xiang, W Huang, U Bach, L Spiccia
Chemical communications 49 (79), 8997-8999, 2013
Финансирование: Australian Research Council
Controlling Interfacial Recombination in Aqueous Dye‐Sensitized Solar Cells by Octadecyltrichlorosilane Surface Treatment
C Dong, W Xiang, F Huang, D Fu, W Huang, U Bach, YB Cheng, X Li, ...
Angewandte Chemie International Edition 53 (27), 6933-6937, 2014
Финансирование: Australian Research Council
Probing Molecular and Crystalline Orientation in Solution‐Processed Perovskite Solar Cells
W Huang, F Huang, E Gann, YB Cheng, CR McNeill
Advanced Functional Materials 25 (34), 5529-5536, 2015
Финансирование: Australian Research Council
Fatigue stability of CH3NH3PbI3 based perovskite solar cells in day/night cycling
L Jiang, J Lu, SR Raga, J Sun, X Lin, W Huang, F Huang, U Bach, ...
Nano Energy 58, 687-694, 2019
Финансирование: Australian Research Council, National Natural Science Foundation of China
Surface modification via self-assembling large cations for improved performance and modulated hysteresis of perovskite solar cells
T Bu, J Li, W Huang, W Mao, F Zheng, P Bi, X Hao, J Zhong, YB Cheng, ...
Journal of Materials Chemistry A 7 (12), 6793-6800, 2019
Финансирование: National Natural Science Foundation of China
Improved fatigue behaviour of perovskite solar cells with an interfacial starch–polyiodide buffer layer
Y Zhang, Q Song, G Liu, Y Chen, Z Guo, N Li, X Niu, Z Qiu, W Zhou, ...
Nature Photonics 17 (12), 1066-1073, 2023
Финансирование: National Natural Science Foundation of China
Non‐Halogenated‐Solvent Processed and Additive‐Free Tandem Organic Solar Cell with Efficiency Reaching 16.67%
S Qin, Z Jia, L Meng, C Zhu, W Lai, J Zhang, W Huang, C Sun, B Qiu, Y Li
Advanced Functional Materials 31 (25), 2102361, 2021
Финансирование: National Natural Science Foundation of China
Modulation of J-aggregation of nonfullerene acceptors toward near-infrared absorption and enhanced efficiency
X Zhang, H Wang, D Li, M Chen, Y Mao, B Du, Y Zhuang, W Tan, ...
Macromolecules 53 (10), 3747-3755, 2020
Финансирование: National Natural Science Foundation of China
In-depth understanding of the morphology–performance relationship in polymer solar cells
W Huang, E Gann, YB Cheng, CR McNeill
ACS applied materials & interfaces 7 (25), 14026-14034, 2015
Финансирование: Australian Research Council
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