Weng, K., Ye, L., Zhu, L., Xu, J., Zhou, J., Feng, X., Lu, G., Tan, S., Liu, F., & Sun, Y. (2020). Optimized active layer morphology toward efficient and polymer batch insensitive organic solar cells. Nature Communications, 11(1), 文章 2855. https://doi.org/10.1038/s41467-020-16621-x
Weng, Kangkang ; Ye, Linglong ; Zhu, Lei 等. / Optimized active layer morphology toward efficient and polymer batch insensitive organic solar cells. 在: Nature Communications. 2020 ; 卷 11, 号码 1.
@article{be9e0576fc584800adda40bee839878b,
title = "Optimized active layer morphology toward efficient and polymer batch insensitive organic solar cells",
abstract = "Morphology control in laboratory and industry setting remains as a major challenge for organic solar cells (OSCs) due to the difference in film-drying kinetics between spin coating and the printing process. A two-step sequential deposition method is developed to control the active layer morphology. A conjugated polymer that self-assembles into a well-defined fibril structure is used as the first layer, and then a non-fullerene acceptor is introduced into the fibril mesh as the second layer to form an optimal morphology. A benefit of the combined fibril network morphology and non-fullerene acceptor properties was that a high efficiency of 16.5% (certified as 16.1%) was achieved. The preformed fibril network layer and the sequentially deposited non-fullerene acceptor form a robust morphology that is insensitive to the polymer batches, solving a notorious issue in OSCs. Such progress demonstrates that the utilization of polymer fibril networks in a sequential deposition process is a promising approach towards the fabrication of high-efficiency OSCs.",
author = "Kangkang Weng and Linglong Ye and Lei Zhu and Jinqiu Xu and Jiajia Zhou and Xiang Feng and Guanghao Lu and Songting Tan and Feng Liu and Yanming Sun",
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day = "1",
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Weng, K, Ye, L, Zhu, L, Xu, J, Zhou, J, Feng, X, Lu, G, Tan, S, Liu, F & Sun, Y 2020, 'Optimized active layer morphology toward efficient and polymer batch insensitive organic solar cells', Nature Communications, 卷 11, 号码 1, 2855. https://doi.org/10.1038/s41467-020-16621-x
Optimized active layer morphology toward efficient and polymer batch insensitive organic solar cells. /
Weng, Kangkang; Ye, Linglong; Zhu, Lei 等.
在:
Nature Communications, 卷 11, 号码 1, 2855, 01.12.2020.
科研成果: 期刊稿件 › 文章 › 同行评审
TY - JOUR
T1 - Optimized active layer morphology toward efficient and polymer batch insensitive organic solar cells
AU - Weng, Kangkang
AU - Ye, Linglong
AU - Zhu, Lei
AU - Xu, Jinqiu
AU - Zhou, Jiajia
AU - Feng, Xiang
AU - Lu, Guanghao
AU - Tan, Songting
AU - Liu, Feng
AU - Sun, Yanming
N1 - Publisher Copyright:
© 2020, The Author(s).
PY - 2020/12/1
Y1 - 2020/12/1
N2 - Morphology control in laboratory and industry setting remains as a major challenge for organic solar cells (OSCs) due to the difference in film-drying kinetics between spin coating and the printing process. A two-step sequential deposition method is developed to control the active layer morphology. A conjugated polymer that self-assembles into a well-defined fibril structure is used as the first layer, and then a non-fullerene acceptor is introduced into the fibril mesh as the second layer to form an optimal morphology. A benefit of the combined fibril network morphology and non-fullerene acceptor properties was that a high efficiency of 16.5% (certified as 16.1%) was achieved. The preformed fibril network layer and the sequentially deposited non-fullerene acceptor form a robust morphology that is insensitive to the polymer batches, solving a notorious issue in OSCs. Such progress demonstrates that the utilization of polymer fibril networks in a sequential deposition process is a promising approach towards the fabrication of high-efficiency OSCs.
AB - Morphology control in laboratory and industry setting remains as a major challenge for organic solar cells (OSCs) due to the difference in film-drying kinetics between spin coating and the printing process. A two-step sequential deposition method is developed to control the active layer morphology. A conjugated polymer that self-assembles into a well-defined fibril structure is used as the first layer, and then a non-fullerene acceptor is introduced into the fibril mesh as the second layer to form an optimal morphology. A benefit of the combined fibril network morphology and non-fullerene acceptor properties was that a high efficiency of 16.5% (certified as 16.1%) was achieved. The preformed fibril network layer and the sequentially deposited non-fullerene acceptor form a robust morphology that is insensitive to the polymer batches, solving a notorious issue in OSCs. Such progress demonstrates that the utilization of polymer fibril networks in a sequential deposition process is a promising approach towards the fabrication of high-efficiency OSCs.
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Weng K, Ye L, Zhu L, Xu J, Zhou J, Feng X 等. Optimized active layer morphology toward efficient and polymer batch insensitive organic solar cells. Nature Communications. 2020 12月 1;11(1):2855. doi: 10.1038/s41467-020-16621-x
