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    Electron Donor–Acceptor Interface of TPPS/PDI Boosting Charge Transfer for Efficient Photocatalytic Hydrogen Evolution

    New search for: Yang, Jun
    New search for: Jing, Jianfang
    New search for: Li, Wenlu
    New search for: Zhu, Yongfa

    Charge separation efficiency of photocatalysts is still the key scientific issue for solar‐to‐chemical energy conversion. In this work, an electron donor–acceptor (D‐A) interface with high charge separation between TPPS (tetra(4‐sulfonatophenyl)porphyrin) and PDI (perylene diimide) is successfully constructed for boosting photocatalytic H2 evolution. The TPPS/PDI with D‐A interface shows excellent photocatalytic H2 evolution rate of 546.54 µmol h–1 (30.36 mmol h–1 g–1), which is 9.95 and 9.41 times higher than that of pure TPPS and PDI, respectively. The TPPS/PDI has a markedly stronger internal electric field, which is respectively 3.76 and 3.01 times higher than that of pure PDI and TPPS. The D‐A interface with giant internal electric field efficiently facilitates charge separation and urges TPPS/PDI to have a longer excited state lifetime than single component. The work provides entirely new ideas for designing materials with D‐A interface to realize high photocatalytic activity.

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    Electron Donor–Acceptor Interface of TPPS/PDI Boosting Charge Transfer for Efficient Photocatalytic Hydrogen Evolution

    New search for: Yang, Jun
    New search for: Jing, Jianfang
    New search for: Li, Wenlu
    New search for: Zhu, Yongfa

    Charge separation efficiency of photocatalysts is still the key scientific issue for solar‐to‐chemical energy conversion. In this work, an electron donor–acceptor (D‐A) interface with high charge separation between TPPS (tetra(4‐sulfonatophenyl)porphyrin) and PDI (perylene diimide) is successfully constructed for boosting photocatalytic H2 evolution. The TPPS/PDI with D‐A interface shows excellent photocatalytic H2 evolution rate of 546.54 µmol h–1 (30.36 mmol h–1 g–1), which is 9.95 and 9.41 times higher than that of pure TPPS and PDI, respectively. The TPPS/PDI has a markedly stronger internal electric field, which is respectively 3.76 and 3.01 times higher than that of pure PDI and TPPS. The D‐A interface with giant internal electric field efficiently facilitates charge separation and urges TPPS/PDI to have a longer excited state lifetime than single component. The work provides entirely new ideas for designing materials with D‐A interface to realize high photocatalytic activity.

    Access

    Download

    Electron Donor–Acceptor Interface of TPPS/PDI Boosting Charge Transfer for Efficient Photocatalytic Hydrogen Evolution

    New search for: Yang, Jun
    New search for: Jing, Jianfang
    New search for: Li, Wenlu
    New search for: Zhu, Yongfa

    Charge separation efficiency of photocatalysts is still the key scientific issue for solar‐to‐chemical energy conversion. In this work, an electron donor–acceptor (D‐A) interface with high charge separation between TPPS (tetra(4‐sulfonatophenyl)porphyrin) and PDI (perylene diimide) is successfully constructed for boosting photocatalytic H2 evolution. The TPPS/PDI with D‐A interface shows excellent photocatalytic H2 evolution rate of 546.54 µmol h–1 (30.36 mmol h–1 g–1), which is 9.95 and 9.41 times higher than that of pure TPPS and PDI, respectively. The TPPS/PDI has a markedly stronger internal electric field, which is respectively 3.76 and 3.01 times higher than that of pure PDI and TPPS. The D‐A interface with giant internal electric field efficiently facilitates charge separation and urges TPPS/PDI to have a longer excited state lifetime than single component. The work provides entirely new ideas for designing materials with D‐A interface to realize high photocatalytic activity.

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    Title:

    Electron Donor–Acceptor Interface of TPPS/PDI Boosting Charge Transfer for Efficient Photocatalytic Hydrogen Evolution

    Contributors:

    Yang, Jun (author) / Jing, Jianfang (author) / Li, Wenlu (author) / Zhu, Yongfa (author)

    Published in:

    Advanced Science ; 9

    Publication date:

    2022-06-01

    Size:

    8 pages

    ISSN:

    2198-3844

    DOI:

    https://doi.org/10.1002/advs.202201134

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    charge separation , electron transfer , interfacial electric field , photocatalytic hydrogen production , TPPS/PDI

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