Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells

Gaoda Chai; Jianquan Zhang; Mingao Pan; Zhen Wang; Jianwei Yu; Jiaen Liang; Han Yu; Yuzhong Chen; Ao Shang; Xiyuan Liu; Fujin Bai; Ruijie Ma; Yuan Chang; Siwei Luo; Anping Zeng; Hang Zhou; Kai Chen; Feng Gao; Harald Ade; He Yan

doi:10.1021/acsenergylett.0c01688

Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells

Gaoda Chai
, Jianquan Zhang
, Mingao Pan
, Zhen Wang
, Jianwei Yu
, Jiaen Liang
, Han Yu
, Yuzhong Chen
, Ao Shang
, Xiyuan Liu
, Fujin Bai
, Ruijie Ma
, Yuan Chang
, Siwei Luo
, Anping Zeng
, Hang Zhou
, Kai Chen
, Feng Gao
, Harald Ade
, He Yan

School of Materials Science and Engineering

Hong Kong University of Science and Technology
North Carolina State University
Linköping University
Peking University
South China University of Technology

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

86 Scopus citations

Abstract

The field of organic solar cells has experienced paradigm-shifting changes in recent years because of the emergence of nonfullerene acceptors (NFAs). It is critically important to gain more insight into the structure-property relationship of the emerging A′-DAD-A′-Type NFAs. In this Letter, a family of NFAs named BPF-4F, BPT-4F, and BPS-4F incorporating various chalcogen-containing heterocycles, i.e., furan, thiophene, and selenophene, respectively, was designed and synthesized. These NFAs exhibited dramatic differences in their photovoltaic performances with device efficiencies of 16.8% achieved by the thiophene-based cells, which was much higher than the furan-based ones (12.6%). In addition, the selenophene-based NFA showed a red-shifted absorption relative to the furan-and thiophene-based ones and obtained a decent efficiency of 16.3% owing to an improved JSC. The reasons why these NFAs performed differently are systematically studied by comparing their optoelectronic properties and film morphology, which provides new understandings of the molecular design of high-performance NFAs.

Original language	English
Pages (from-to)	3415-3425
Number of pages	11
Journal	ACS Energy Letters
Volume	5
Issue number	11
DOIs	https://doi.org/10.1021/acsenergylett.0c01688
State	Published - 13 Nov 2020

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Chai, G., Zhang, J., Pan, M., Wang, Z., Yu, J., Liang, J., Yu, H., Chen, Y., Shang, A., Liu, X., Bai, F., Ma, R., Chang, Y., Luo, S., Zeng, A., Zhou, H., Chen, K., Gao, F., Ade, H., & Yan, H. (2020). Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells. ACS Energy Letters, 5(11), 3415-3425. https://doi.org/10.1021/acsenergylett.0c01688

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title = "Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells",

abstract = "The field of organic solar cells has experienced paradigm-shifting changes in recent years because of the emergence of nonfullerene acceptors (NFAs). It is critically important to gain more insight into the structure-property relationship of the emerging A′-DAD-A′-Type NFAs. In this Letter, a family of NFAs named BPF-4F, BPT-4F, and BPS-4F incorporating various chalcogen-containing heterocycles, i.e., furan, thiophene, and selenophene, respectively, was designed and synthesized. These NFAs exhibited dramatic differences in their photovoltaic performances with device efficiencies of 16.8\% achieved by the thiophene-based cells, which was much higher than the furan-based ones (12.6\%). In addition, the selenophene-based NFA showed a red-shifted absorption relative to the furan-and thiophene-based ones and obtained a decent efficiency of 16.3\% owing to an improved JSC. The reasons why these NFAs performed differently are systematically studied by comparing their optoelectronic properties and film morphology, which provides new understandings of the molecular design of high-performance NFAs.",

author = "Gaoda Chai and Jianquan Zhang and Mingao Pan and Zhen Wang and Jianwei Yu and Jiaen Liang and Han Yu and Yuzhong Chen and Ao Shang and Xiyuan Liu and Fujin Bai and Ruijie Ma and Yuan Chang and Siwei Luo and Anping Zeng and Hang Zhou and Kai Chen and Feng Gao and Harald Ade and He Yan",

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doi = "10.1021/acsenergylett.0c01688",

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Chai, G, Zhang, J, Pan, M, Wang, Z, Yu, J, Liang, J, Yu, H, Chen, Y, Shang, A, Liu, X, Bai, F, Ma, R, Chang, Y, Luo, S, Zeng, A, Zhou, H, Chen, K, Gao, F, Ade, H & Yan, H 2020, 'Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells', ACS Energy Letters, vol. 5, no. 11, pp. 3415-3425. https://doi.org/10.1021/acsenergylett.0c01688

TY - JOUR

T1 - Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells

AU - Chai, Gaoda

AU - Zhang, Jianquan

AU - Pan, Mingao

AU - Wang, Zhen

AU - Yu, Jianwei

AU - Liang, Jiaen

AU - Yu, Han

AU - Chen, Yuzhong

AU - Shang, Ao

AU - Liu, Xiyuan

AU - Bai, Fujin

AU - Ma, Ruijie

AU - Chang, Yuan

AU - Luo, Siwei

AU - Zeng, Anping

AU - Zhou, Hang

AU - Chen, Kai

AU - Gao, Feng

AU - Ade, Harald

AU - Yan, He

PY - 2020/11/13

Y1 - 2020/11/13

N2 - The field of organic solar cells has experienced paradigm-shifting changes in recent years because of the emergence of nonfullerene acceptors (NFAs). It is critically important to gain more insight into the structure-property relationship of the emerging A′-DAD-A′-Type NFAs. In this Letter, a family of NFAs named BPF-4F, BPT-4F, and BPS-4F incorporating various chalcogen-containing heterocycles, i.e., furan, thiophene, and selenophene, respectively, was designed and synthesized. These NFAs exhibited dramatic differences in their photovoltaic performances with device efficiencies of 16.8% achieved by the thiophene-based cells, which was much higher than the furan-based ones (12.6%). In addition, the selenophene-based NFA showed a red-shifted absorption relative to the furan-and thiophene-based ones and obtained a decent efficiency of 16.3% owing to an improved JSC. The reasons why these NFAs performed differently are systematically studied by comparing their optoelectronic properties and film morphology, which provides new understandings of the molecular design of high-performance NFAs.

AB - The field of organic solar cells has experienced paradigm-shifting changes in recent years because of the emergence of nonfullerene acceptors (NFAs). It is critically important to gain more insight into the structure-property relationship of the emerging A′-DAD-A′-Type NFAs. In this Letter, a family of NFAs named BPF-4F, BPT-4F, and BPS-4F incorporating various chalcogen-containing heterocycles, i.e., furan, thiophene, and selenophene, respectively, was designed and synthesized. These NFAs exhibited dramatic differences in their photovoltaic performances with device efficiencies of 16.8% achieved by the thiophene-based cells, which was much higher than the furan-based ones (12.6%). In addition, the selenophene-based NFA showed a red-shifted absorption relative to the furan-and thiophene-based ones and obtained a decent efficiency of 16.3% owing to an improved JSC. The reasons why these NFAs performed differently are systematically studied by comparing their optoelectronic properties and film morphology, which provides new understandings of the molecular design of high-performance NFAs.

UR - https://www.scopus.com/pages/publications/85096117964

U2 - 10.1021/acsenergylett.0c01688

DO - 10.1021/acsenergylett.0c01688

M3 - 文章

AN - SCOPUS:85096117964

SN - 2380-8195

VL - 5

SP - 3415

EP - 3425

JO - ACS Energy Letters

JF - ACS Energy Letters

IS - 11

ER -

Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells

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