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CoIn dual-atom catalyst for hydrogen peroxide production via oxygen reduction reaction in acid

Author

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  • Jiannan Du

    (Harbin Institute of Technology)

  • Guokang Han

    (Harbin Institute of Technology)

  • Wei Zhang

    (Harbin Institute of Technology)

  • Lingfeng Li

    (Harbin Institute of Technology)

  • Yuqi Yan

    (Harbin Institute of Technology)

  • Yaoxuan Shi

    (Harbin Institute of Technology)

  • Xue Zhang

    (Chinese Academy of Sciences)

  • Lin Geng

    (Harbin Institute of Technology)

  • Zhijiang Wang

    (Harbin Institute of Technology)

  • Yueping Xiong

    (Harbin Institute of Technology)

  • Geping Yin

    (Harbin Institute of Technology)

  • Chunyu Du

    (Harbin Institute of Technology)

Abstract

The two-electron oxygen reduction reaction in acid is highly attractive to produce H2O2, a commodity chemical vital in various industry and household scenarios, which is still hindered by the sluggish reaction kinetics. Herein, both density function theory calculation and in-situ characterization demonstrate that in dual-atom CoIn catalyst, O-affinitive In atom triggers the favorable and stable adsorption of hydroxyl, which effectively optimizes the adsorption of OOH on neighboring Co. As a result, the oxygen reduction on Co atoms shifts to two-electron pathway for efficient H2O2 production in acid. The H2O2 partial current density reaches 1.92 mA cm−2 at 0.65 V in the rotating ring-disk electrode test, while the H2O2 production rate is as high as 9.68 mol g−1 h−1 in the three-phase flow cell. Additionally, the CoIn-N-C presents excellent stability during the long-term operation, verifying the practicability of the CoIn-N-C catalyst. This work provides inspiring insights into the rational design of active catalysts for H2O2 production and other catalytic systems.

Suggested Citation

  • Jiannan Du & Guokang Han & Wei Zhang & Lingfeng Li & Yuqi Yan & Yaoxuan Shi & Xue Zhang & Lin Geng & Zhijiang Wang & Yueping Xiong & Geping Yin & Chunyu Du, 2023. "CoIn dual-atom catalyst for hydrogen peroxide production via oxygen reduction reaction in acid," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40467-8
    DOI: 10.1038/s41467-023-40467-8
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    1. Chao-Hai Gu & Song Wang & Ai-Yong Zhang & Chang Liu & Jun Jiang & Han-Qing Yu, 2024. "Tuning electronic structure of metal-free dual-site catalyst enables exclusive singlet oxygen production and in-situ utilization," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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