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Enhanced carbon dioxide conversion at ambient conditions via a pore enrichment effect

Author

Listed:
  • Wei Zhou

    (Shandong University)

  • Qi-Wen Deng

    (Shandong University
    China Three Gorges University)

  • Guo-Qing Ren

    (Shandong University)

  • Lei Sun

    (Shandong University)

  • Li Yang

    (Shandong University
    Chinese Academy of Sciences
    University of the Chinese Academy of Sciences)

  • Yi-Meng Li

    (Shandong University)

  • Dong Zhai

    (Shandong University)

  • Yi-Hong Zhou

    (China Three Gorges University)

  • Wei-Qiao Deng

    (Shandong University
    Chinese Academy of Sciences)

Abstract

Chemical fixation of carbon dioxide (CO2) may be a pathway to retard the current trend of rapid global warming. However, the current economic cost of chemical fixation remains high because the chemical fixation of CO2 usually requires high temperature or high pressure. The rational design of an efficient catalyst that works at ambient conditions might substantially reduce the economic cost of fixation. Here, we report the rational design of covalent organic frameworks (COFs) as efficient CO2 fixation catalysts under ambient conditions based on the finding of “pore enrichment”, which is concluded by a detailed investigation of the 10994 COFs. The best predicted COF, Zn-Salen-COF-SDU113, is synthesized, and its efficient catalytic performance for CO2 cycloaddition to terminal epoxide is confirmed with a yield of 98.2% and turnover number (TON) of 3068.9 under ambient conditions, which is comparable to the reported leading catalysts. Moreover, this COF achieves the cycloaddition of CO2 to 2,3-epoxybutane under ambient conditions among all porous materials. This work provides a strategy for designing porous catalysts in the economic fixation of carbon dioxide.

Suggested Citation

  • Wei Zhou & Qi-Wen Deng & Guo-Qing Ren & Lei Sun & Li Yang & Yi-Meng Li & Dong Zhai & Yi-Hong Zhou & Wei-Qiao Deng, 2020. "Enhanced carbon dioxide conversion at ambient conditions via a pore enrichment effect," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-18154-9
    DOI: 10.1038/s41467-020-18154-9
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    Cited by:

    1. Yimeng Li & Li Yang & Huijie He & Lei Sun & Honglei Wang & Xu Fang & Yanliang Zhao & Daoyuan Zheng & Yu Qi & Zhen Li & Weiqiao Deng, 2022. "In situ photodeposition of platinum clusters on a covalent organic framework for photocatalytic hydrogen production," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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