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Well-defined diatomic catalysis for photosynthesis of C2H4 from CO2

Author

Listed:
  • Zhongkai Xie

    (Jiangsu University)

  • Shengjie Xu

    (Jiangsu University)

  • Longhua Li

    (Jiangsu University)

  • Shanhe Gong

    (Jiangsu University)

  • Xiaojie Wu

    (Jiangsu University)

  • Dongbo Xu

    (Jiangsu University)

  • Baodong Mao

    (Jiangsu University)

  • Ting Zhou

    (Jiangsu University)

  • Min Chen

    (Jiangsu University)

  • Xiao Wang

    (Chinese Academy of Sciences)

  • Weidong Shi

    (Jiangsu University)

  • Shuyan Song

    (Chinese Academy of Sciences)

Abstract

Owing to the specific electronic-redistribution and spatial proximity, diatomic catalysts (DACs) have been identified as principal interest for efficient photoconversion of CO2 into C2H4. However, the predominant bottom-up strategy for DACs synthesis has critically constrained the development of highly ordered DACs due to the random distribution of heteronuclear atoms, which hinders the optimization of catalytic performance and the exploration of actual reaction mechanism. Here, an up-bottom ion-cutting architecture is proposed to fabricate the well-defined DACs, and the superior spatial proximity of CuAu diatomics (DAs) decorated TiO2 (CuAu-DAs-TiO2) is successfully constructed due to the compact heteroatomic spacing (2-3 Å). Owing to the profoundly low C-C coupling energy barrier of CuAu-DAs-TiO2, a considerable C2H4 production with superior sustainability is achieved. Our discovery inspires a novel up-bottom strategy for the fabrication of well-defined DACs to motivate optimization of catalytic performance and distinct deduction of heteroatom synergistically catalytic mechanism.

Suggested Citation

  • Zhongkai Xie & Shengjie Xu & Longhua Li & Shanhe Gong & Xiaojie Wu & Dongbo Xu & Baodong Mao & Ting Zhou & Min Chen & Xiao Wang & Weidong Shi & Shuyan Song, 2024. "Well-defined diatomic catalysis for photosynthesis of C2H4 from CO2," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46745-3
    DOI: 10.1038/s41467-024-46745-3
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