Asymmetric electron acceptor enables highly luminescent organic solar cells with certified efficiency over 18%

Chengliang He; Zeng Chen; Tonghui Wang; Ziqiu Shen; Yaokai Li; Jiadong Zhou; Jianwei Yu; Huiyu Fang; Yuhao Li; Shuixing Li; Xinhui Lu; Wei Ma; Feng Gao; Zengqi Xie; Veaceslav Coropceanu; Haiming Zhu; Jean Luc Bredas; Lijian Zuo; Hongzheng Chen

doi:10.1038/s41467-022-30225-7

Asymmetric electron acceptor enables highly luminescent organic solar cells with certified efficiency over 18%

Chengliang He
, Zeng Chen
, Tonghui Wang
, Ziqiu Shen
, Yaokai Li
, Jiadong Zhou
, Jianwei Yu
, Huiyu Fang
, Yuhao Li
, Shuixing Li
, Xinhui Lu
, Wei Ma
, Feng Gao
, Zengqi Xie
, Veaceslav Coropceanu
, Haiming Zhu
, Jean Luc Bredas
, Lijian Zuo
, Hongzheng Chen

School of Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

236 Scopus citations

Abstract

Enhancing the luminescence property without sacrificing the charge collection is one key to high-performance organic solar cells (OSCs), while limited by the severe non-radiative charge recombination. Here, we demonstrate efficient OSCs with high luminescence via the design and synthesis of an asymmetric non-fullerene acceptor, BO-5Cl. Blending BO-5Cl with the PM6 donor leads to a record-high electroluminescence external quantum efficiency of 0.1%, which results in a low non-radiative voltage loss of 0.178 eV and a power conversion efficiency (PCE) over 15%. Importantly, incorporating BO-5Cl as the third component into a widely-studied donor:acceptor (D:A) blend, PM6:BO-4Cl, allows device displaying a high certified PCE of 18.2%. Our joint experimental and theoretical studies unveil that more diverse D:A interfacial conformations formed by asymmetric acceptor induce optimized blend interfacial energetics, which contributes to the improved device performance via balancing charge generation and recombination.

Original language	English
Article number	2598
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-30225-7
State	Published - Dec 2022

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He, C., Chen, Z., Wang, T., Shen, Z., Li, Y., Zhou, J., Yu, J., Fang, H., Li, Y., Li, S., Lu, X., Ma, W., Gao, F., Xie, Z., Coropceanu, V., Zhu, H., Bredas, J. L., Zuo, L., & Chen, H. (2022). Asymmetric electron acceptor enables highly luminescent organic solar cells with certified efficiency over 18%. Nature Communications, 13(1), Article 2598. https://doi.org/10.1038/s41467-022-30225-7

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title = "Asymmetric electron acceptor enables highly luminescent organic solar cells with certified efficiency over 18\%",

abstract = "Enhancing the luminescence property without sacrificing the charge collection is one key to high-performance organic solar cells (OSCs), while limited by the severe non-radiative charge recombination. Here, we demonstrate efficient OSCs with high luminescence via the design and synthesis of an asymmetric non-fullerene acceptor, BO-5Cl. Blending BO-5Cl with the PM6 donor leads to a record-high electroluminescence external quantum efficiency of 0.1\%, which results in a low non-radiative voltage loss of 0.178 eV and a power conversion efficiency (PCE) over 15\%. Importantly, incorporating BO-5Cl as the third component into a widely-studied donor:acceptor (D:A) blend, PM6:BO-4Cl, allows device displaying a high certified PCE of 18.2\%. Our joint experimental and theoretical studies unveil that more diverse D:A interfacial conformations formed by asymmetric acceptor induce optimized blend interfacial energetics, which contributes to the improved device performance via balancing charge generation and recombination.",

author = "Chengliang He and Zeng Chen and Tonghui Wang and Ziqiu Shen and Yaokai Li and Jiadong Zhou and Jianwei Yu and Huiyu Fang and Yuhao Li and Shuixing Li and Xinhui Lu and Wei Ma and Feng Gao and Zengqi Xie and Veaceslav Coropceanu and Haiming Zhu and Bredas, \{Jean Luc\} and Lijian Zuo and Hongzheng Chen",

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year = "2022",

month = dec,

doi = "10.1038/s41467-022-30225-7",

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volume = "13",

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TY - JOUR

T1 - Asymmetric electron acceptor enables highly luminescent organic solar cells with certified efficiency over 18%

AU - He, Chengliang

AU - Chen, Zeng

AU - Wang, Tonghui

AU - Shen, Ziqiu

AU - Li, Yaokai

AU - Zhou, Jiadong

AU - Yu, Jianwei

AU - Fang, Huiyu

AU - Li, Yuhao

AU - Li, Shuixing

AU - Lu, Xinhui

AU - Ma, Wei

AU - Gao, Feng

AU - Xie, Zengqi

AU - Coropceanu, Veaceslav

AU - Zhu, Haiming

AU - Bredas, Jean Luc

AU - Zuo, Lijian

AU - Chen, Hongzheng

PY - 2022/12

Y1 - 2022/12

N2 - Enhancing the luminescence property without sacrificing the charge collection is one key to high-performance organic solar cells (OSCs), while limited by the severe non-radiative charge recombination. Here, we demonstrate efficient OSCs with high luminescence via the design and synthesis of an asymmetric non-fullerene acceptor, BO-5Cl. Blending BO-5Cl with the PM6 donor leads to a record-high electroluminescence external quantum efficiency of 0.1%, which results in a low non-radiative voltage loss of 0.178 eV and a power conversion efficiency (PCE) over 15%. Importantly, incorporating BO-5Cl as the third component into a widely-studied donor:acceptor (D:A) blend, PM6:BO-4Cl, allows device displaying a high certified PCE of 18.2%. Our joint experimental and theoretical studies unveil that more diverse D:A interfacial conformations formed by asymmetric acceptor induce optimized blend interfacial energetics, which contributes to the improved device performance via balancing charge generation and recombination.

AB - Enhancing the luminescence property without sacrificing the charge collection is one key to high-performance organic solar cells (OSCs), while limited by the severe non-radiative charge recombination. Here, we demonstrate efficient OSCs with high luminescence via the design and synthesis of an asymmetric non-fullerene acceptor, BO-5Cl. Blending BO-5Cl with the PM6 donor leads to a record-high electroluminescence external quantum efficiency of 0.1%, which results in a low non-radiative voltage loss of 0.178 eV and a power conversion efficiency (PCE) over 15%. Importantly, incorporating BO-5Cl as the third component into a widely-studied donor:acceptor (D:A) blend, PM6:BO-4Cl, allows device displaying a high certified PCE of 18.2%. Our joint experimental and theoretical studies unveil that more diverse D:A interfacial conformations formed by asymmetric acceptor induce optimized blend interfacial energetics, which contributes to the improved device performance via balancing charge generation and recombination.

UR - https://www.scopus.com/pages/publications/85129991897

U2 - 10.1038/s41467-022-30225-7

DO - 10.1038/s41467-022-30225-7

M3 - 文章

C2 - 35545620

AN - SCOPUS:85129991897

SN - 2041-1723

VL - 13

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 2598

ER -

Asymmetric electron acceptor enables highly luminescent organic solar cells with certified efficiency over 18%

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