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    Novel Dimethylmethylene‐Bridged Triphenylamine‐PDI Acceptor for Bulk‐Heterojunction Organic Solar Cells

    New search for: Xiong, Yu
    New search for: Wu, Bo
    New search for: Zheng, Xiaoyan
    New search for: Zhao, Zheng
    New search for: Deng, Ping
    New search for: Lin, Ming
    New search for: Tang, Benzhong
    New search for: Ong, Beng S.

    A novel, star‐shaped electron acceptor, DMTPA‐PDI3, derived from a planar dimethylmethylene‐bridged triphenylamine core with three acetylene‐linked perylene diimide (PDI) units is developed as a nonfullerene acceptor for organic solar cells (OSCs). DMTPA‐PDI3 manifests significantly reduced intramolecular twisting, enabling sufficient system‐wide π‐electron delocalization leading to broadened spectral absorption and raised lowest unoccupied molecular orbital level. As a result, higher and more balanced hole and electron transport properties are observed. Active layers for OSCs comprising DMTPA‐PDI3 acceptor and PBT7‐Th donor exhibit suppressed intermolecular aggregation, giving rise to uniform nanophase network formation. These OSC devices have afforded respectably high power‐conversion efficiency of about 5%.

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    Novel Dimethylmethylene‐Bridged Triphenylamine‐PDI Acceptor for Bulk‐Heterojunction Organic Solar Cells

    New search for: Xiong, Yu
    New search for: Wu, Bo
    New search for: Zheng, Xiaoyan
    New search for: Zhao, Zheng
    New search for: Deng, Ping
    New search for: Lin, Ming
    New search for: Tang, Benzhong
    New search for: Ong, Beng S.

    A novel, star‐shaped electron acceptor, DMTPA‐PDI3, derived from a planar dimethylmethylene‐bridged triphenylamine core with three acetylene‐linked perylene diimide (PDI) units is developed as a nonfullerene acceptor for organic solar cells (OSCs). DMTPA‐PDI3 manifests significantly reduced intramolecular twisting, enabling sufficient system‐wide π‐electron delocalization leading to broadened spectral absorption and raised lowest unoccupied molecular orbital level. As a result, higher and more balanced hole and electron transport properties are observed. Active layers for OSCs comprising DMTPA‐PDI3 acceptor and PBT7‐Th donor exhibit suppressed intermolecular aggregation, giving rise to uniform nanophase network formation. These OSC devices have afforded respectably high power‐conversion efficiency of about 5%.

    Access

    Download

    Novel Dimethylmethylene‐Bridged Triphenylamine‐PDI Acceptor for Bulk‐Heterojunction Organic Solar Cells

    New search for: Xiong, Yu
    New search for: Wu, Bo
    New search for: Zheng, Xiaoyan
    New search for: Zhao, Zheng
    New search for: Deng, Ping
    New search for: Lin, Ming
    New search for: Tang, Benzhong
    New search for: Ong, Beng S.

    A novel, star‐shaped electron acceptor, DMTPA‐PDI3, derived from a planar dimethylmethylene‐bridged triphenylamine core with three acetylene‐linked perylene diimide (PDI) units is developed as a nonfullerene acceptor for organic solar cells (OSCs). DMTPA‐PDI3 manifests significantly reduced intramolecular twisting, enabling sufficient system‐wide π‐electron delocalization leading to broadened spectral absorption and raised lowest unoccupied molecular orbital level. As a result, higher and more balanced hole and electron transport properties are observed. Active layers for OSCs comprising DMTPA‐PDI3 acceptor and PBT7‐Th donor exhibit suppressed intermolecular aggregation, giving rise to uniform nanophase network formation. These OSC devices have afforded respectably high power‐conversion efficiency of about 5%.

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    Download

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    Document information
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    Title:

    Novel Dimethylmethylene‐Bridged Triphenylamine‐PDI Acceptor for Bulk‐Heterojunction Organic Solar Cells

    Contributors:

    Xiong, Yu (author) / Wu, Bo (author) / Zheng, Xiaoyan (author) / Zhao, Zheng (author) / Deng, Ping (author) / Lin, Ming (author) / Tang, Benzhong (author) / Ong, Beng S. (author)

    Published in:

    Advanced Science ; 4

    Publication date:

    2017-10-01

    Size:

    6 pages

    ISSN:

    2198-3844

    DOI:

    https://doi.org/10.1002/advs.201700110

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    nonfullerene acceptors , organic solar cells , perylene diimide , triphenylamine

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