Alloy-like ternary polymer solar cells with over 17.2% efficiency

Qiaoshi An; Jian Wang; Wei Gao; Xiaoling Ma; Zhenghao Hu; Jinhua Gao; Chunyu Xu; Minghui Hao; Xiaoli Zhang; Chuluo Yang; Fujun Zhang

doi:10.1016/j.scib.2020.01.012

Alloy-like ternary polymer solar cells with over 17.2% efficiency

Qiaoshi An, Jian Wang, Wei Gao, Xiaoling Ma, Zhenghao Hu, Jinhua Gao, Chunyu Xu, Minghui Hao, Xiaoli Zhang, Chuluo Yang^*, Fujun Zhang

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258 引用（Scopus）

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Ternary strategy has been considered as an efficient method to achieve high performance polymer solar cells (PSCs). A power conversion efficiency (PCE) of 17.22% is achieved in the optimized ternary PSCs with 10 wt% MF1 in acceptors. The over 8% PCE improvement by employing ternary strategy is attributed to the simultaneously increased J_SC of 25.68 mA cm⁻², V_OC of 0.853 V and FF of 78.61% compared with Y6 based binary PSCs. The good compatibility of MF1 and Y6 can be confirmed from Raman mapping, contact angle, cyclic voltammetry and morphology, which is the prerequisite to form alloy-like state. Electron mobility in ternary active layers strongly depends on MF1 content in acceptors due to the different lowest unoccupied molecular orbital (LUMO) levels of Y6 and MF1, which can well explain the wave-like varied FF of ternary PSCs. The third-party certified PCE of 16.8% should be one of the highest values for single bulk heterojunction PSCs. This work provides sufficient references for selecting materials to achieve efficient ternary PSCs.

源语言	英语
页（从-至）	538-545
页数	8
期刊	Science Bulletin
卷	65
期	7
DOI	https://doi.org/10.1016/j.scib.2020.01.012
出版状态	已出版 - 15 4月 2020
已对外发布	是

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title = "Alloy-like ternary polymer solar cells with over 17.2% efficiency",

abstract = "Ternary strategy has been considered as an efficient method to achieve high performance polymer solar cells (PSCs). A power conversion efficiency (PCE) of 17.22% is achieved in the optimized ternary PSCs with 10 wt% MF1 in acceptors. The over 8% PCE improvement by employing ternary strategy is attributed to the simultaneously increased JSC of 25.68 mA cm−2, VOC of 0.853 V and FF of 78.61% compared with Y6 based binary PSCs. The good compatibility of MF1 and Y6 can be confirmed from Raman mapping, contact angle, cyclic voltammetry and morphology, which is the prerequisite to form alloy-like state. Electron mobility in ternary active layers strongly depends on MF1 content in acceptors due to the different lowest unoccupied molecular orbital (LUMO) levels of Y6 and MF1, which can well explain the wave-like varied FF of ternary PSCs. The third-party certified PCE of 16.8% should be one of the highest values for single bulk heterojunction PSCs. This work provides sufficient references for selecting materials to achieve efficient ternary PSCs.",

keywords = "Alloy-like model, Nonfullerene acceptor, Polymer solar cells, Ternary strategy",

author = "Qiaoshi An and Jian Wang and Wei Gao and Xiaoling Ma and Zhenghao Hu and Jinhua Gao and Chunyu Xu and Minghui Hao and Xiaoli Zhang and Chuluo Yang and Fujun Zhang",

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AU - An, Qiaoshi

AU - Wang, Jian

AU - Gao, Wei

AU - Ma, Xiaoling

AU - Hu, Zhenghao

AU - Gao, Jinhua

AU - Xu, Chunyu

AU - Hao, Minghui

AU - Zhang, Xiaoli

AU - Yang, Chuluo

AU - Zhang, Fujun

PY - 2020/4/15

Y1 - 2020/4/15

N2 - Ternary strategy has been considered as an efficient method to achieve high performance polymer solar cells (PSCs). A power conversion efficiency (PCE) of 17.22% is achieved in the optimized ternary PSCs with 10 wt% MF1 in acceptors. The over 8% PCE improvement by employing ternary strategy is attributed to the simultaneously increased JSC of 25.68 mA cm−2, VOC of 0.853 V and FF of 78.61% compared with Y6 based binary PSCs. The good compatibility of MF1 and Y6 can be confirmed from Raman mapping, contact angle, cyclic voltammetry and morphology, which is the prerequisite to form alloy-like state. Electron mobility in ternary active layers strongly depends on MF1 content in acceptors due to the different lowest unoccupied molecular orbital (LUMO) levels of Y6 and MF1, which can well explain the wave-like varied FF of ternary PSCs. The third-party certified PCE of 16.8% should be one of the highest values for single bulk heterojunction PSCs. This work provides sufficient references for selecting materials to achieve efficient ternary PSCs.

AB - Ternary strategy has been considered as an efficient method to achieve high performance polymer solar cells (PSCs). A power conversion efficiency (PCE) of 17.22% is achieved in the optimized ternary PSCs with 10 wt% MF1 in acceptors. The over 8% PCE improvement by employing ternary strategy is attributed to the simultaneously increased JSC of 25.68 mA cm−2, VOC of 0.853 V and FF of 78.61% compared with Y6 based binary PSCs. The good compatibility of MF1 and Y6 can be confirmed from Raman mapping, contact angle, cyclic voltammetry and morphology, which is the prerequisite to form alloy-like state. Electron mobility in ternary active layers strongly depends on MF1 content in acceptors due to the different lowest unoccupied molecular orbital (LUMO) levels of Y6 and MF1, which can well explain the wave-like varied FF of ternary PSCs. The third-party certified PCE of 16.8% should be one of the highest values for single bulk heterojunction PSCs. This work provides sufficient references for selecting materials to achieve efficient ternary PSCs.

KW - Alloy-like model

KW - Nonfullerene acceptor

KW - Polymer solar cells

KW - Ternary strategy

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Alloy-like ternary polymer solar cells with over 17.2% efficiency

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