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Nanoconfinement enabled non-covalently decorated MXene membranes for ion-sieving

Author

Listed:
  • Yuan Kang

    (Monash University)

  • Ting Hu

    (Monash University)

  • Yuqi Wang

    (Zhejiang University)

  • Kaiqiang He

    (Monash University)

  • Zhuyuan Wang

    (The University of Queensland)

  • Yvonne Hora

    (Monash University)

  • Wang Zhao

    (Monash University)

  • Rongming Xu

    (Nanjing University)

  • Yu Chen

    (Monash University)

  • Zongli Xie

    (CSIRO Manufacturing)

  • Huanting Wang

    (Monash University)

  • Qinfen Gu

    (Australian Synchrotron, ANSTO)

  • Xiwang Zhang

    (Monash University
    The University of Queensland)

Abstract

Covalent modification is commonly used to tune the channel size and functionality of 2D membranes. However, common synthesis strategies used to produce such modifications are known to disrupt the structure of the membranes. Herein, we report less intrusive yet equally effective non-covalent modifications on Ti3C2Tx MXene membranes by a solvent treatment, where the channels are robustly decorated by protic solvents via hydrogen bond network. The densely functionalized (-O, -F, -OH) Ti3C2Tx channel allows multiple hydrogen bond establishment and its sub-1-nm size induces a nanoconfinement effect to greatly strengthen these interactions by maintaining solvent-MXene distance and solvent orientation. In sub-1-nm ion sieving and separation, as-decorated membranes exhibit stable ion rejection, and proton-cation (H+/Mn+) selectivity that is up to 50 times and 30 times, respectively, higher than that of pristine membranes. It demonstrates the feasibility of non-covalent methods as a broad modification alternative for nanochannels integrated in energy-, resource- and environment-related applications.

Suggested Citation

  • Yuan Kang & Ting Hu & Yuqi Wang & Kaiqiang He & Zhuyuan Wang & Yvonne Hora & Wang Zhao & Rongming Xu & Yu Chen & Zongli Xie & Huanting Wang & Qinfen Gu & Xiwang Zhang, 2023. "Nanoconfinement enabled non-covalently decorated MXene membranes for ion-sieving," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39533-y
    DOI: 10.1038/s41467-023-39533-y
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    References listed on IDEAS

    as
    1. Li Ding & Libo Li & Yanchang Liu & Yi Wu & Zong Lu & Junjie Deng & Yanying Wei & Jürgen Caro & Haihui Wang, 2020. "Effective ion sieving with Ti3C2Tx MXene membranes for production of drinking water from seawater," Nature Sustainability, Nature, vol. 3(4), pages 296-302, April.
    2. Guoji Huang & Behnam Ghalei & Ali Pournaghshband Isfahani & H. Enis Karahan & Daiki Terada & Detao Qin & Conger Li & Masahiko Tsujimoto & Daisuke Yamaguchi & Kunihisa Sugimoto & Ryuji Igarashi & Bor K, 2021. "Overcoming humidity-induced swelling of graphene oxide-based hydrogen membranes using charge-compensating nanodiamonds," Nature Energy, Nature, vol. 6(12), pages 1176-1187, December.
    3. Liang Chen & Guosheng Shi & Jie Shen & Bingquan Peng & Bowu Zhang & Yuzhu Wang & Fenggang Bian & Jiajun Wang & Deyuan Li & Zhe Qian & Gang Xu & Gongping Liu & Jianrong Zeng & Lijuan Zhang & Yizhou Yan, 2017. "Ion sieving in graphene oxide membranes via cationic control of interlayer spacing," Nature, Nature, vol. 550(7676), pages 380-383, October.
    4. Na Liu & Qiaoqiao Li & Hujie Wan & Libo Chang & Hao Wang & Jianhua Fang & Tianpeng Ding & Qiye Wen & Liujiang Zhou & Xu Xiao, 2022. "High-temperature stability in air of Ti3C2Tx MXene-based composite with extracted bentonite," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
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