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Bixbyite-type Ln2O3 as promoters of metallic Ni for alkaline electrocatalytic hydrogen evolution

Author

Listed:
  • Hongming Sun

    (Tianjin Normal University)

  • Zhenhua Yan

    (Nankai University)

  • Caiying Tian

    (Tianjin Normal University)

  • Cha Li

    (Tianjin Normal University)

  • Xin Feng

    (Tianjin Normal University)

  • Rong Huang

    (Tianjin Normal University)

  • Yinghui Lan

    (Tianjin Normal University)

  • Jing Chen

    (Tianjin Normal University)

  • Cheng-Peng Li

    (Tianjin Normal University)

  • Zhihong Zhang

    (Zhengzhou University of Light Industry)

  • Miao Du

    (Tianjin Normal University
    Zhengzhou University of Light Industry)

Abstract

The active-site density, intrinsic activity, and durability of Ni-based catalysts are critical to their application in industrial alkaline water electrolysis. This work develops a kind of promoters, the bixbyite-type lanthanide metal sesquioxides (Ln2O3), which can be implanted into metallic Ni by selective high-temperature reduction to achieve highly efficient Ni/Ln2O3 hybrid electrocatalysts toward hydrogen evolution reaction. The screened Ni/Yb2O3 catalyst shows the low overpotential (20.0 mV at 10 mA cm−2), low Tafel slope (44.6 mV dec−1), and excellent long-term durability (360 h at 500 mA cm−2), significantly outperforming the metallic Ni and benchmark Pt/C catalysts. The remarkable hydrogen evolution activity and stability of Ni/Yb2O3 are attributed to that the Yb2O3 promoter with high oxophilicity and thermodynamic stability can greatly enlarge the active-site density, reduce the energy barrier of water dissociation, optimize the free energy of hydrogen adsorption, and avoid the oxidation corrosion of Ni.

Suggested Citation

  • Hongming Sun & Zhenhua Yan & Caiying Tian & Cha Li & Xin Feng & Rong Huang & Yinghui Lan & Jing Chen & Cheng-Peng Li & Zhihong Zhang & Miao Du, 2022. "Bixbyite-type Ln2O3 as promoters of metallic Ni for alkaline electrocatalytic hydrogen evolution," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31561-4
    DOI: 10.1038/s41467-022-31561-4
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