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In-plane strain engineering in ultrathin noble metal nanosheets boosts the intrinsic electrocatalytic hydrogen evolution activity

Author

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  • Geng Wu

    (University of Science and Technology of China)

  • Xiao Han

    (University of Science and Technology of China)

  • Jinyan Cai

    (University of Science and Technology of China)

  • Peiqun Yin

    (University of Science and Technology of China)

  • Peixin Cui

    (Chinese Academy of Sciences)

  • Xusheng Zheng

    (University of Science and Technology of China)

  • Hai Li

    (Nanjing Technology University)

  • Cai Chen

    (University of Science and Technology of China)

  • Gongming Wang

    (University of Science and Technology of China)

  • Xun Hong

    (University of Science and Technology of China)

Abstract

Strain has been shown to modulate the electronic structure of noble metal nanomaterials and alter their catalytic performances. Since strain is spatially dependent, it is challenging to expose the active strained interfaces by structural engineering with atomic precision. Herein, we report a facile method to manipulate the planar strain in ultrathin noble metal nanosheets by constructing amorphous–crystalline phase boundaries that can expose the active strained interfaces. Geometric-phase analysis and electron diffraction profile demonstrate the in-plane amorphous–crystalline boundaries can induce about 4% surface tensile strain in the nanosheets. The strained Ir nanosheets display substantially enhanced intrinsic activity toward the hydrogen evolution reaction electrocatalysis with a turnover frequency value 4.5-fold higher than the benchmark Pt/C catalyst. Density functional theory calculations verify that the tensile strain optimizes the d-band states and hydrogen adsorption properties of the strained Ir nanosheets to improve catalysis. Furthermore, the in-plane strain engineering method is demonstrated to be a general approach to boost the hydrogen evolution performance of Ru and Rh nanosheets.

Suggested Citation

  • Geng Wu & Xiao Han & Jinyan Cai & Peiqun Yin & Peixin Cui & Xusheng Zheng & Hai Li & Cai Chen & Gongming Wang & Xun Hong, 2022. "In-plane strain engineering in ultrathin noble metal nanosheets boosts the intrinsic electrocatalytic hydrogen evolution activity," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31971-4
    DOI: 10.1038/s41467-022-31971-4
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