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    Site-designed dual-active-center catalysts for co-catalysis in advanced oxidation processes

    New search for: Wenxin Sun
    New search for: Guoshuai Liu
    New search for: Hua Zou
    New search for: Shaobin Wang
    New search for: Xiaoguang Duan

    Abstract Advanced Oxidation Processes (AOPs) are promising for treating persistent pollutants, yet challenges arise due to the step-wise oxidants activation process, which traditional single-active-center catalysts struggle to facilitate effectively. Recently, dual-active-center catalysts have emerged as a solution by enabling synergistic reactions. This review covers advances in these catalysts, their co-catalytic mechanisms, and applications in electro-Fenton, photocatalytic, peroxymonosulfate-, and pollutant-as-electron-donor based Fenton-like processes, along with active site design considerations and future challenges.

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    Site-designed dual-active-center catalysts for co-catalysis in advanced oxidation processes

    New search for: Wenxin Sun
    New search for: Guoshuai Liu
    New search for: Hua Zou
    New search for: Shaobin Wang
    New search for: Xiaoguang Duan

    Abstract Advanced Oxidation Processes (AOPs) are promising for treating persistent pollutants, yet challenges arise due to the step-wise oxidants activation process, which traditional single-active-center catalysts struggle to facilitate effectively. Recently, dual-active-center catalysts have emerged as a solution by enabling synergistic reactions. This review covers advances in these catalysts, their co-catalytic mechanisms, and applications in electro-Fenton, photocatalytic, peroxymonosulfate-, and pollutant-as-electron-donor based Fenton-like processes, along with active site design considerations and future challenges.

    Access

    Download

    Site-designed dual-active-center catalysts for co-catalysis in advanced oxidation processes

    New search for: Wenxin Sun
    New search for: Guoshuai Liu
    New search for: Hua Zou
    New search for: Shaobin Wang
    New search for: Xiaoguang Duan

    Abstract Advanced Oxidation Processes (AOPs) are promising for treating persistent pollutants, yet challenges arise due to the step-wise oxidants activation process, which traditional single-active-center catalysts struggle to facilitate effectively. Recently, dual-active-center catalysts have emerged as a solution by enabling synergistic reactions. This review covers advances in these catalysts, their co-catalytic mechanisms, and applications in electro-Fenton, photocatalytic, peroxymonosulfate-, and pollutant-as-electron-donor based Fenton-like processes, along with active site design considerations and future challenges.

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    Title:

    Site-designed dual-active-center catalysts for co-catalysis in advanced oxidation processes

    Contributors:

    Wenxin Sun (author) / Guoshuai Liu (author) / Hua Zou (author) / Shaobin Wang (author) / Xiaoguang Duan (author)

    Published in:

    npj Materials Sustainability, Vol 3, Iss 1, Pp 1-16 (2025)

    Publication date:

    2025

    ISSN:

    2948-1775

    DOI:

    https://doi.org/10.1038/s44296-024-00046-4

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Environmental sciences , GE1-350 , Materials of engineering and construction. Mechanics of materials , TA401-492

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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