Long-Range Charge Separation Enabled by Intramoiety Delocalized Excitations in Copolymer Donors in Organic Photovoltaic Blends

Long-Range Charge Separation Enabled by Intramoiety Delocalized Excitations in Copolymer Donors in Organic Photovoltaic Blends

For over two decades, most high-performance organic photovoltaics (OPVs) have been made with donor:acceptor bulk heterojunctions with domain sizes limited by exciton diffusion, where charge separation mostly takes place through the dissociation of the interfacial charge-transfer (xCT) excitons. Rece...

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Veröffentlicht in:The journal of physical chemistry letters 2023-08, Vol.14 (33), p.7498-7506
Hauptverfasser: Li, Qian, Wang, Rui, Yu, Tao, Wang, Xiaoyong, Zhang, Zhi-Guo, Zhang, Yuan, Xiao, Min, Zhang, Chunfeng
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Physical Insights into Materials and Molecular Properties
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container_end_page 7506
container_issue 33
container_start_page 7498
container_title The journal of physical chemistry letters
container_volume 14
creator Li, Qian
Wang, Rui
Yu, Tao
Wang, Xiaoyong
Zhang, Zhi-Guo
Zhang, Yuan
Xiao, Min
Zhang, Chunfeng
description For over two decades, most high-performance organic photovoltaics (OPVs) have been made with donor:acceptor bulk heterojunctions with domain sizes limited by exciton diffusion, where charge separation mostly takes place through the dissociation of the interfacial charge-transfer (xCT) excitons. Recently, nonfullerene acceptor (NFA)-based OPVs have shown excellent compatibility to device structures with large domains in active layers. However, it remains elusive how the excitations that are distant from the interfaces are converted into free charges. Here, we report the identification of a new charge separation channel in model copolymer/NFA blends mediated by intra-moiety delocalized excitations in both planar heterojunctions and donor-enriched bulk heterojunctions. The delocalized excitations induced by interchromophore electronic interactions in copolymer donors mediate the long-range charge separation and dissociate into free charges without forming the bound xCT states first, releasing the constraints associated with the short exciton diffusion length in organic materials. The long-range charge separation mechanism uncovered in this work, in cooperation with the short-range xCT-mediated pathway, holds the potential to further optimize OPVs with diverse device structures.
doi_str_mv 10.1021/acs.jpclett.3c01861
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title Long-Range Charge Separation Enabled by Intramoiety Delocalized Excitations in Copolymer Donors in Organic Photovoltaic Blends
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