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Enhancing photocatalytic hydrogen peroxide generation by tuning hydrazone linkage density in covalent organic frameworks

Author

Listed:
  • Avanti Chakraborty

    (S. N. Bose National Centre for Basic Sciences)

  • Akhtar Alam

    (S. N. Bose National Centre for Basic Sciences)

  • Uttam Pal

    (S. N. Bose National Centre for Basic Sciences
    S. N. Bose National Centre for Basic Sciences)

  • Archisman Sinha

    (S. N. Bose National Centre for Basic Sciences)

  • Subhadip Das

    (Chaudhary Ranbir Singh University)

  • Tanusri Saha-Dasgupta

    (S. N. Bose National Centre for Basic Sciences
    S. N. Bose National Centre for Basic Sciences)

  • Pradip Pachfule

    (S. N. Bose National Centre for Basic Sciences
    S. N. Bose National Centre for Basic Sciences)

Abstract

The conversion of solar energy into chemical energy or high-value chemicals has attracted considerable research interest in the context of the global energy crisis. Hydrogen peroxide (H2O2) is a versatile and powerful oxidizing agent widely used in chemical synthesis and medical disinfection. H2O2 also serves as a clean energy source in fuel cells, generating electricity with zero-carbon emissions. Recently, the sustainable production of H2O2 from water and oxygen using covalent organic frameworks (COFs) as photocatalysts has attracted considerable attention; however, systematic studies highlighting the role of linkages in determining photocatalytic performance are scarce. Under these circumstances, herein, we demonstrate that varying the imine and hydrazone linkages within the framework significantly influences photocatalytic H2O2 production. COFs with high-density hydrazone linkages, providing optimal docking sites for water and oxygen, enhance H2O2 generation activity (1588 μmol g−1 h−1 from pure water in the air), leading to highly efficient solar-to-chemical energy conversion.

Suggested Citation

  • Avanti Chakraborty & Akhtar Alam & Uttam Pal & Archisman Sinha & Subhadip Das & Tanusri Saha-Dasgupta & Pradip Pachfule, 2025. "Enhancing photocatalytic hydrogen peroxide generation by tuning hydrazone linkage density in covalent organic frameworks," Nature Communications, Nature, vol. 16(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-55894-y
    DOI: 10.1038/s41467-025-55894-y
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    1. Wei Wang & Qun Song & Qiang Luo & Linqian Li & Xiaobing Huo & Shipeng Chen & Jinyang Li & Yunhong Li & Se Shi & Yihui Yuan & Xiwen Du & Kai Zhang & Ning Wang, 2023. "Photothermal-enabled single-atom catalysts for high-efficiency hydrogen peroxide photosynthesis from natural seawater," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    2. Rufan Chen & Yang Wang & Yuan Ma & Arindam Mal & Xiao-Ya Gao & Lei Gao & Lijie Qiao & Xu-Bing Li & Li-Zhu Wu & Cheng Wang, 2021. "Rational design of isostructural 2D porphyrin-based covalent organic frameworks for tunable photocatalytic hydrogen evolution," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    3. Yaning Zhang & Chengsi Pan & Gaoming Bian & Jing Xu & Yuming Dong & Ying Zhang & Yang Lou & Weixu Liu & Yongfa Zhu, 2023. "H2O2 generation from O2 and H2O on a near-infrared absorbing porphyrin supramolecular photocatalyst," Nature Energy, Nature, vol. 8(4), pages 361-371, April.
    4. Chencheng Qin & Xiaodong Wu & Lin Tang & Xiaohong Chen & Miao Li & Yi Mou & Bo Su & Sibo Wang & Chengyang Feng & Jiawei Liu & Xingzhong Yuan & Yanli Zhao & Hou Wang, 2023. "Dual donor-acceptor covalent organic frameworks for hydrogen peroxide photosynthesis," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
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