Equally high efficiencies of organic solar cells processed from different solvents reveal key factors for morphology control

Rui Zhang; Haiyang Chen; Tonghui Wang; Libor Kobera; Lilin He; Yuting Huang; Junyuan Ding; Ben Zhang; Azzaya Khasbaatar; Sadisha Nanayakkara; Jialei Zheng; Weijie Chen; Ying Diao; Sabina Abbrent; Jiri Brus; Aidan H. Coffey; Chenhui Zhu; Heng Liu; Xinhui Lu; Qing Jiang; Veaceslav Coropceanu; Jean Luc Brédas; Yongfang Li; Yaowen Li; Feng Gao

doi:10.1038/s41560-024-01678-5

Equally high efficiencies of organic solar cells processed from different solvents reveal key factors for morphology control

Rui Zhang, Haiyang Chen, Tonghui Wang, Libor Kobera, Lilin He, Yuting Huang, Junyuan Ding, Ben Zhang, Azzaya Khasbaatar, Sadisha Nanayakkara, Jialei Zheng, Weijie Chen, Ying Diao, Sabina Abbrent, Jiri Brus, Aidan H. Coffey, Chenhui Zhu, Heng Liu, Xinhui Lu, Qing JiangVeaceslav Coropceanu, Jean Luc Brédas, Yongfang Li, Yaowen Li, Feng Gao

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

2 Scopus citations

Abstract

The power conversion efficiency of organic solar cells (OSCs) is exceeding 20%, an advance in which morphology optimization has played a significant role. It is generally accepted that the processing solvent (or solvent mixture) can help optimize morphology, impacting the OSC efficiency. Here we develop OSCs that show strong tolerance to a range of processing solvents, with all devices delivering high power conversion efficiencies around 19%. By investigating the solution states, the film formation dynamics and the characteristics of the processed films both experimentally and computationally, we identify the key factors that control morphology, that is, the interactions between the side chains of the acceptor materials and the solvent as well as the interactions between the donor and acceptor materials. Our work provides new understanding on the long-standing question of morphology control and effective guides to design OSC materials towards practical applications, where green solvents are required for large-scale processing.

Original language	English (US)
Article number	4949
Pages (from-to)	124-134
Number of pages	11
Journal	Nature Energy
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41560-024-01678-5
State	Published - Jan 2025
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Renewable Energy, Sustainability and the Environment
Fuel Technology
Energy Engineering and Power Technology

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10.1038/s41560-024-01678-5

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Zhang, R., Chen, H., Wang, T., Kobera, L., He, L., Huang, Y., Ding, J., Zhang, B., Khasbaatar, A., Nanayakkara, S., Zheng, J., Chen, W., Diao, Y., Abbrent, S., Brus, J., Coffey, A. H., Zhu, C., Liu, H., Lu, X., ... Gao, F. (2025). Equally high efficiencies of organic solar cells processed from different solvents reveal key factors for morphology control. Nature Energy, 10(1), 124-134. Article 4949. https://doi.org/10.1038/s41560-024-01678-5

Zhang, R, Chen, H, Wang, T, Kobera, L, He, L, Huang, Y, Ding, J, Zhang, B, Khasbaatar, A, Nanayakkara, S, Zheng, J, Chen, W, Diao, Y, Abbrent, S, Brus, J, Coffey, AH, Zhu, C, Liu, H, Lu, X, Jiang, Q, Coropceanu, V , Brédas, JL, Li, Y, Li, Y & Gao, F 2025, 'Equally high efficiencies of organic solar cells processed from different solvents reveal key factors for morphology control', Nature Energy, vol. 10, no. 1, 4949, pp. 124-134. https://doi.org/10.1038/s41560-024-01678-5

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abstract = "The power conversion efficiency of organic solar cells (OSCs) is exceeding 20%, an advance in which morphology optimization has played a significant role. It is generally accepted that the processing solvent (or solvent mixture) can help optimize morphology, impacting the OSC efficiency. Here we develop OSCs that show strong tolerance to a range of processing solvents, with all devices delivering high power conversion efficiencies around 19%. By investigating the solution states, the film formation dynamics and the characteristics of the processed films both experimentally and computationally, we identify the key factors that control morphology, that is, the interactions between the side chains of the acceptor materials and the solvent as well as the interactions between the donor and acceptor materials. Our work provides new understanding on the long-standing question of morphology control and effective guides to design OSC materials towards practical applications, where green solvents are required for large-scale processing.",

author = "Rui Zhang and Haiyang Chen and Tonghui Wang and Libor Kobera and Lilin He and Yuting Huang and Junyuan Ding and Ben Zhang and Azzaya Khasbaatar and Sadisha Nanayakkara and Jialei Zheng and Weijie Chen and Ying Diao and Sabina Abbrent and Jiri Brus and Coffey, {Aidan H.} and Chenhui Zhu and Heng Liu and Xinhui Lu and Qing Jiang and Veaceslav Coropceanu and Br{\'e}das, {Jean Luc} and Yongfang Li and Yaowen Li and Feng Gao",

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doi = "10.1038/s41560-024-01678-5",

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AU - Zhang, Rui

AU - Chen, Haiyang

AU - Wang, Tonghui

AU - Kobera, Libor

AU - He, Lilin

AU - Huang, Yuting

AU - Ding, Junyuan

AU - Zhang, Ben

AU - Khasbaatar, Azzaya

AU - Nanayakkara, Sadisha

AU - Zheng, Jialei

AU - Chen, Weijie

AU - Diao, Ying

AU - Abbrent, Sabina

AU - Brus, Jiri

AU - Coffey, Aidan H.

AU - Zhu, Chenhui

AU - Liu, Heng

AU - Lu, Xinhui

AU - Jiang, Qing

AU - Coropceanu, Veaceslav

AU - Brédas, Jean Luc

AU - Li, Yongfang

AU - Li, Yaowen

AU - Gao, Feng

PY - 2025/1

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N2 - The power conversion efficiency of organic solar cells (OSCs) is exceeding 20%, an advance in which morphology optimization has played a significant role. It is generally accepted that the processing solvent (or solvent mixture) can help optimize morphology, impacting the OSC efficiency. Here we develop OSCs that show strong tolerance to a range of processing solvents, with all devices delivering high power conversion efficiencies around 19%. By investigating the solution states, the film formation dynamics and the characteristics of the processed films both experimentally and computationally, we identify the key factors that control morphology, that is, the interactions between the side chains of the acceptor materials and the solvent as well as the interactions between the donor and acceptor materials. Our work provides new understanding on the long-standing question of morphology control and effective guides to design OSC materials towards practical applications, where green solvents are required for large-scale processing.

AB - The power conversion efficiency of organic solar cells (OSCs) is exceeding 20%, an advance in which morphology optimization has played a significant role. It is generally accepted that the processing solvent (or solvent mixture) can help optimize morphology, impacting the OSC efficiency. Here we develop OSCs that show strong tolerance to a range of processing solvents, with all devices delivering high power conversion efficiencies around 19%. By investigating the solution states, the film formation dynamics and the characteristics of the processed films both experimentally and computationally, we identify the key factors that control morphology, that is, the interactions between the side chains of the acceptor materials and the solvent as well as the interactions between the donor and acceptor materials. Our work provides new understanding on the long-standing question of morphology control and effective guides to design OSC materials towards practical applications, where green solvents are required for large-scale processing.

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Equally high efficiencies of organic solar cells processed from different solvents reveal key factors for morphology control

Abstract

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