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Single-atom Mo-tailored high-entropy-alloy ultrathin nanosheets with intrinsic tensile strain enhance electrocatalysis

Author

Listed:
  • Lin He

    (Harbin Institute of Technology)

  • Menggang Li

    (Harbin Institute of Technology
    Peking University)

  • Longyu Qiu

    (Harbin Institute of Technology)

  • Shuo Geng

    (Guizhou University)

  • Yequn Liu

    (Chinese Academy of Sciences)

  • Fenyang Tian

    (Harbin Institute of Technology)

  • Mingchuan Luo

    (Peking University)

  • Hu Liu

    (Qinghai Institute of Salt Lakes, Chinese Academy of Sciences)

  • Yongsheng Yu

    (Harbin Institute of Technology)

  • Weiwei Yang

    (Harbin Institute of Technology)

  • Shaojun Guo

    (Peking University)

Abstract

The precise structural integration of single-atom and high-entropy-alloy features for energy electrocatalysis is highly appealing for energy conversion, yet remains a grand challenge. Herein, we report a class of single-atom Mo-tailored PdPtNiCuZn high-entropy-alloy nanosheets with dilute Pt-Pt ensembles and intrinsic tensile strain (Mo1-PdPtNiCuZn) as efficient electrocatalysts for enhancing the methanol oxidation reaction catalysis. The as-made Mo1-PdPtNiCuZn delivers an extraordinary mass activity of 24.55 A mgPt−1 and 11.62 A mgPd+Pt−1, along with impressive long-term durability. The planted oxophilic Mo single atoms as promoters modify the electronic structure of isolated Pt sites in the high-entropy-alloy host, suppressing the formation of CO adsorbates and steering the reaction towards the formate pathway. Meanwhile, Mo promoters and tensile strain synergistically optimize the adsorption behaviour of intermediates to achieve a more energetically favourable pathway and minimize the methanol oxidation reaction barrier. This work advances the design of atomically precise catalytic sites by creating a new paradigm of single atom-tailored high-entropy alloys, opening an encouraging pathway to the design of CO-tolerance electrocatalysts.

Suggested Citation

  • Lin He & Menggang Li & Longyu Qiu & Shuo Geng & Yequn Liu & Fenyang Tian & Mingchuan Luo & Hu Liu & Yongsheng Yu & Weiwei Yang & Shaojun Guo, 2024. "Single-atom Mo-tailored high-entropy-alloy ultrathin nanosheets with intrinsic tensile strain enhance electrocatalysis," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45874-z
    DOI: 10.1038/s41467-024-45874-z
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    1. Mingchuan Luo & Zhonglong Zhao & Yelong Zhang & Yingjun Sun & Yi Xing & Fan Lv & Yong Yang & Xu Zhang & Sooyeon Hwang & Yingnan Qin & Jing-Yuan Ma & Fei Lin & Dong Su & Gang Lu & Shaojun Guo, 2019. "PdMo bimetallene for oxygen reduction catalysis," Nature, Nature, vol. 574(7776), pages 81-85, October.
    2. Jiace Hao & Zechao Zhuang & Kecheng Cao & Guohua Gao & Chan Wang & Feili Lai & Shuanglong Lu & Piming Ma & Weifu Dong & Tianxi Liu & Mingliang Du & Han Zhu, 2022. "Unraveling the electronegativity-dominated intermediate adsorption on high-entropy alloy electrocatalysts," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    3. Changhong Zhan & Yong Xu & Lingzheng Bu & Huaze Zhu & Yonggang Feng & Tang Yang & Ying Zhang & Zhiqing Yang & Bolong Huang & Qi Shao & Xiaoqing Huang, 2021. "Subnanometer high-entropy alloy nanowires enable remarkable hydrogen oxidation catalysis," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    4. Hongdong Li & Yi Han & Huan Zhao & Wenjing Qi & Dan Zhang & Yaodong Yu & Wenwen Cai & Shaoxiang Li & Jianping Lai & Bolong Huang & Lei Wang, 2020. "Fast site-to-site electron transfer of high-entropy alloy nanocatalyst driving redox electrocatalysis," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
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