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Anomalous water molecular gating from atomic-scale graphene capillaries for precise and ultrafast molecular sieving

Author

Listed:
  • Qian Zhang

    (Zhengzhou University)

  • Bo Gao

    (Zhengzhou University)

  • Ling Zhang

    (Zhengzhou University)

  • Xiaopeng Liu

    (Zhengzhou University)

  • Jixiang Cui

    (Zhengzhou University)

  • Yijun Cao

    (Zhengzhou University)

  • Hongbo Zeng

    (University of Alberta)

  • Qun Xu

    (Zhengzhou University
    Zhengzhou University)

  • Xinwei Cui

    (Zhengzhou University)

  • Lei Jiang

    (Chinese Academy of Sciences)

Abstract

The pressing crisis of clean water shortage requires membranes to possess effective ion sieving as well as fast water flux. However, effective ion sieving demands reduction of pore size, which inevitably hinders water flux in hydrophilic membranes, posing a major challenge for efficient water/ion separation. Herein, we introduce anomalous water molecular gating based on nanofiltration membranes full of graphene capillaries at 6 Å, which were fabricated from spontaneous π-π restacking of island-on-nanosheet graphitic microstructures. We found that the membrane can provide effective ion sieving by suppressing osmosis-driven ion diffusion to negligible levels (~10–4 mol m–2 h–1); unexpectedly, ultrafast bulk flow of water (45.4 L m–2 h–1) was still functional with ease, as gated on/off by adjusting hydrostatic pressures within only 10–2 bar. We attribute this seemingly incompatible observation to graphene nanoconfinement effect, where crystal-like water confined within the capillaries hinders diffusion under osmosis but facilitates high-speed, diffusion-free water transport in the way analogous to Newton’s cradle-like Grotthus conduction. This strategy establishes a type of liquid-solid-liquid, phase-changing molecular transport for precise and ultrafast molecular sieving.

Suggested Citation

  • Qian Zhang & Bo Gao & Ling Zhang & Xiaopeng Liu & Jixiang Cui & Yijun Cao & Hongbo Zeng & Qun Xu & Xinwei Cui & Lei Jiang, 2023. "Anomalous water molecular gating from atomic-scale graphene capillaries for precise and ultrafast molecular sieving," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-42401-4
    DOI: 10.1038/s41467-023-42401-4
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    References listed on IDEAS

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    1. Tianshu Chu & Ze Zhou & Pengfei Tian & Tingting Yu & Cheng Lian & Bowei Zhang & Fu-Zhen Xuan, 2024. "Nanofluidic sensing inspired by the anomalous water dynamics in electrical angstrom-scale channels," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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