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A restricted dynamic surface self-reconstruction toward high-performance of direct seawater oxidation

Author

Listed:
  • Ling Zhou

    (Wenzhou University)

  • Daying Guo

    (Wenzhou University)

  • Lianhui Wu

    (Wenzhou University)

  • Zhixi Guan

    (Wenzhou University)

  • Chao Zou

    (Wenzhou University)

  • Huile Jin

    (Wenzhou University)

  • Guoyong Fang

    (Wenzhou University)

  • Xi’an Chen

    (Wenzhou University)

  • Shun Wang

    (Wenzhou University)

Abstract

The development of highly efficient electrocatalysts for direct seawater splitting with bifunctionality for inhibiting anodic oxidation reconstruction and selective oxygen evolution reactions is a major challenge. Herein, we report a direct seawater oxidation electrocatalyst that achieves long-term stability for more than 1000 h at 600 mA/cm2@η600 and high selectivity (Faraday efficiency of 100%). This catalyst revolves an amorphous molybdenum oxide layer constructed on the beaded-like cobalt oxide interface by atomic layer deposition technology. As demonstrated, a new restricted dynamic surface self-reconstruction mechanism is induced by the formation a stable reconstructed Co-Mo double hydroxide phase interface layer. The device assembled into a two-electrode flow cell for direct overall seawater electrolysis maintained at 1 A/cm2@1.93 V for 500 h with Faraday efficiency higher than 95%. Hydrogen generation rate reaches 419.4 mL/cm2/h, and the power consumption (4.62 KWh/m3 H2) is lower than that of pure water (5.0 KWh/m3 H2) at industrial current density.

Suggested Citation

  • Ling Zhou & Daying Guo & Lianhui Wu & Zhixi Guan & Chao Zou & Huile Jin & Guoyong Fang & Xi’an Chen & Shun Wang, 2024. "A restricted dynamic surface self-reconstruction toward high-performance of direct seawater oxidation," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46708-8
    DOI: 10.1038/s41467-024-46708-8
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    Cited by:

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    2. Lin Chen & Chang Yu & Xuedan Song & Junting Dong & Jiawei Mu & Jieshan Qiu, 2024. "Integrated electrochemical and chemical system for ampere-level production of terephthalic acid alternatives and hydrogen," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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