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Ultra-selective molecular-sieving gas separation membranes enabled by multi-covalent-crosslinking of microporous polymer blends

Author

Listed:
  • Xiuling Chen

    (Institute of Coal Chemistry, Chinese Academy of Sciences
    Hubei University of Science and Technology)

  • Yanfang Fan

    (China University of Petroleum-Beijing)

  • Lei Wu

    (Institute of Coal Chemistry, Chinese Academy of Sciences)

  • Linzhou Zhang

    (China University of Petroleum-Beijing)

  • Dong Guan

    (China University of Petroleum-Beijing)

  • Canghai Ma

    (Dalian University of Technology)

  • Nanwen Li

    (Institute of Coal Chemistry, Chinese Academy of Sciences)

Abstract

High-performance membranes exceeding the conventional permeability-selectivity upper bound are attractive for advanced gas separations. In the context microporous polymers have gained increasing attention owing to their exceptional permeability, which, however, demonstrate a moderate selectivity unfavorable for separating similarly sized gas mixtures. Here we report an approach to designing polymeric molecular sieve membranes via multi-covalent-crosslinking of blended bromomethyl polymer of intrinsic microporosity and Tröger’s base, enabling simultaneously high permeability and selectivity. Ultra-selective gas separation is achieved via adjusting reaction temperature, reaction time and the oxygen concentration with occurrences of polymer chain scission, rearrangement and thermal oxidative crosslinking reaction. Upon a thermal treatment at 300 °C for 5 h, membranes exhibit an O2/N2, CO2/CH4 and H2/CH4 selectivity as high as 11.1, 154.5 and 813.6, respectively, transcending the state-of-art upper bounds. The design strategy represents a generalizable approach to creating molecular-sieving polymer membranes with enormous potentials for high-performance separation processes.

Suggested Citation

  • Xiuling Chen & Yanfang Fan & Lei Wu & Linzhou Zhang & Dong Guan & Canghai Ma & Nanwen Li, 2021. "Ultra-selective molecular-sieving gas separation membranes enabled by multi-covalent-crosslinking of microporous polymer blends," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26379-5
    DOI: 10.1038/s41467-021-26379-5
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    1. Niaz Ali Khan & Runnan Zhang & Xiaoyao Wang & Li Cao & Chandra S. Azad & Chunyang Fan & Jinqiu Yuan & Mengying Long & Hong Wu & Mark. A. Olson & Zhongyi Jiang, 2022. "Assembling covalent organic framework membranes via phase switching for ultrafast molecular transport," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    2. Bin Zhu & Shanshan He & Yan Yang & Songwei Li & Cher Hon Lau & Shaomin Liu & Lu Shao, 2023. "Boosting membrane carbon capture via multifaceted polyphenol-mediated soldering," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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