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Prussian blue analog with separated active sites to catalyze water driven enhanced catalytic treatments

Author

Listed:
  • Liu-Chun Wang

    (National Cheng Kung University)

  • Pei-Yu Chiou

    (National Cheng Kung University)

  • Ya-Ping Hsu

    (National Cheng Kung University)

  • Chin-Lai Lee

    (Kaohsiung Chang Gung Memorial Hospital)

  • Chih-Hsuan Hung

    (National Cheng Kung University)

  • Yi-Hsuan Wu

    (National Cheng Kung University)

  • Wen-Jyun Wang

    (Kaohsiung Medical University)

  • Gia-Ling Hsieh

    (National Cheng Kung University)

  • Ying-Chi Chen

    (National Cheng Kung University)

  • Li-Chan Chang

    (National Cheng Kung University)

  • Wen-Pin Su

    (National Cheng Kung University
    National Cheng Kung University Hospital, College of Medicine, National Cheng Kung University)

  • Divinah Manoharan

    (National Cheng Kung University)

  • Min-Chiao Liao

    (Kaohsiung Chang Gung Memorial Hospital)

  • Suresh Thangudu

    (Chang Gung University)

  • Wei-Peng Li

    (Kaohsiung Medical University
    Kaohsiung Medical University
    National Cheng Kung University)

  • Chia-Hao Su

    (Chang Gung University
    National Yang Ming Chiao Tung University
    Kaohsiung Chang Gung Memorial Hospital
    Chang Gung University)

  • Hong-Kang Tian

    (National Cheng Kung University
    National Cheng Kung University
    National Cheng Kung University)

  • Chen-Sheng Yeh

    (National Cheng Kung University
    National Cheng Kung University)

Abstract

Chemodynamic therapy (CDT) uses the Fenton or Fenton-like reaction to yield toxic ‧OH following H2O2 → ‧OH for tumoral therapy. Unfortunately, H2O2 is often taken from the limited endogenous supply of H2O2 in cancer cells. A water oxidation CoFe Prussian blue (CFPB) nanoframes is presented to provide sustained, external energy-free self-supply of ‧OH from H2O to process CDT and/or photothermal therapy (PTT). Unexpectedly, the as-prepared CFPB nanocubes with no near-infrared (NIR) absorption is transformed into CFPB nanoframes with NIR absorption due to the increased Fe3+-N ≡ C-Fe2+ composition through the proposed proton-induced metal replacement reactions. Surprisingly, both the CFPB nanocubes and nanoframes provide for the self-supply of O2, H2O2, and ‧OH from H2O, with the nanoframe outperforming in the production of ‧OH. Simulation analysis indicates separated active sites in catalyzation of water oxidation, oxygen reduction, and Fenton-like reactions from CFPB. The liposome-covered CFPB nanoframes prepared for controllable water-driven CDT for male tumoral mice treatments.

Suggested Citation

  • Liu-Chun Wang & Pei-Yu Chiou & Ya-Ping Hsu & Chin-Lai Lee & Chih-Hsuan Hung & Yi-Hsuan Wu & Wen-Jyun Wang & Gia-Ling Hsieh & Ying-Chi Chen & Li-Chan Chang & Wen-Pin Su & Divinah Manoharan & Min-Chiao , 2023. "Prussian blue analog with separated active sites to catalyze water driven enhanced catalytic treatments," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40470-z
    DOI: 10.1038/s41467-023-40470-z
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    References listed on IDEAS

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    1. Dongdong Wang & Huihui Wu & Soo Zeng Fiona Phua & Guangbao Yang & Wei Qi Lim & Long Gu & Cheng Qian & Haibao Wang & Zhen Guo & Hongzhong Chen & Yanli Zhao, 2020. "Self-assembled single-atom nanozyme for enhanced photodynamic therapy treatment of tumor," Nature Communications, Nature, vol. 11(1), pages 1-13, December.
    2. Minfeng Huo & Liying Wang & Yu Chen & Jianlin Shi, 2017. "Tumor-selective catalytic nanomedicine by nanocatalyst delivery," Nature Communications, Nature, vol. 8(1), pages 1-12, December.
    3. Hen Dotan & Avigail Landman & Stafford W. Sheehan & Kirtiman Deo Malviya & Gennady E. Shter & Daniel A. Grave & Ziv Arzi & Nachshon Yehudai & Manar Halabi & Netta Gal & Noam Hadari & Coral Cohen & Avn, 2019. "Decoupled hydrogen and oxygen evolution by a two-step electrochemical–chemical cycle for efficient overall water splitting," Nature Energy, Nature, vol. 4(9), pages 786-795, September.
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    Cited by:

    1. Zhaokui Jin & Lingdong Jiang & Qianjun He, 2024. "Critical learning from industrial catalysis for nanocatalytic medicine," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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