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Scalable Nickel-Chelated Polydopamine Conformal Coatings for Enhanced Long-term Photostability of BiVO₄ Photoanodes
  • +11
  • Yongbo Kuang,
  • weilong Qin,
  • qitao liu,
  • Na An,
  • ruiyuan sun,
  • haorui gong,
  • tadesse belachew,
  • Muhammad Akbar,
  • hao wang,
  • yang zhou,
  • qinglu liu,
  • yunzhi tang,
  • jianming li,
  • Jiabo Le
Yongbo Kuang
Ningbo Institute of Materials Technology and Engineering CAS

Corresponding Author:kuangyongbo@nimte.ac.cn

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weilong Qin
Ningbo Institute of Materials Technology and Engineering Chinese Academy of Sciences
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qitao liu
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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Na An
Ningbo Institute of Materials Technology and Engineering CAS
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ruiyuan sun
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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haorui gong
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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tadesse belachew
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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Muhammad Akbar
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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hao wang
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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yang zhou
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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qinglu liu
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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yunzhi tang
Ningbo Institute of Industrial Technology Chinese Academy of Sciences
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jianming li
Research Institute of Petroleum Exploration and Development
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Jiabo Le
Ningbo Institute of Materials Technology and Engineering CAS
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Abstract

Large-scale bismuth vanadate (BiVO4) photoanodes are critical to the practical application of photoelectrochemical (PEC) water splitting devices. However, the lack of interface-modified coatings with simultaneous low cost, scalability, high hole transport efficiency, low impedance, and photocorrosion resistance is a major challenge that prevents the practical application of large-size photoanodes. Here, we present a scalable nickel-chelated polydopamine (PDA-Ni) conformal coating for modifying BiVO4 (BiVO4@PDA-Ni, BPNi), achieving over 500 hours of stable water oxidation. The excellent stability is attributed to the chelated Ni acting as hole oxidation sites for PDA, thereby suppressing the accumulated-holes-induced PDA decomposition. Additionally, the in situ generation of Ni(Ⅳ) facilitates the structural reorganization of PDA in the PEC system, further enhancing the stability of the PDA matrix. The findings of PDA photodegradation, its autonomous metal ion capture within PEC systems, and the rapid deactivation of BPNi photoanodes caused by vanadium (V) ions have all provided significant guidance for the enhancement of PDA. Our study demonstrates that PDA-Ni can be applied to large-scale BiVO4 photoanodes to facilitate oxygen evolution. This will promote the development of large-scale photoanodes suitable for PEC devices.
01 Dec 2024Submitted to Energy & Environmental Materials
05 Dec 2024Submission Checks Completed
05 Dec 2024Assigned to Editor
05 Dec 2024Review(s) Completed, Editorial Evaluation Pending
11 Dec 2024Reviewer(s) Assigned