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Self-assembled dendrimer polyamide nanofilms with enhanced effective pore area for ion separation

Author

Listed:
  • Bingbing Yuan

    (Henan Normal University)

  • Yuhang Zhang

    (Henan Normal University)

  • Pengfei Qi

    (Tiangong University)

  • Dongxiao Yang

    (Henan Normal University)

  • Ping Hu

    (Henan Normal University)

  • Siheng Zhao

    (Henan Normal University
    Shenzhen University)

  • Kaili Zhang

    (Henan Normal University)

  • Xiaozhuan Zhang

    (Henan Normal University)

  • Meng You

    (Henan Normal University)

  • Jiabao Cui

    (Henan Normal University)

  • Juhui Jiang

    (Henan Normal University)

  • Xiangdong Lou

    (Henan Normal University)

  • Q. Jason Niu

    (Shenzhen University)

Abstract

Membrane technology using well-defined pore structure can achieve high ion purity and recovery. However, fine-tuning the inner pore structure of the separation nanofilm to be uniform and enhance the effective pore area is still challenging. Here, we report dendrimers with different peripheral groups that preferentially self-assemble in aqueous-phase amine solution to facilitate the formation of polyamide nanofilms with a well-defined effective pore range and uniform pore structure. The high permeabilities are maintained by forming asymmetric hollow nanostripe nanofilms, and their well-designed ion effective separation pore ranges show an enhancement, rationalized by molecular simulation. The self-assembled dendrimer polyamide membrane provides Cl–/SO42– selectivity more than 17 times that of its pristine polyamide counterparts, increasing from 167.9 to 2883.0. Furthermore, the designed membranes achieve higher Li purity and Li recovery compared to current state-of-the-art membranes. Such an approach provides a scalable strategy to fine-tune subnanometre structures in ion separation nanofilms.

Suggested Citation

  • Bingbing Yuan & Yuhang Zhang & Pengfei Qi & Dongxiao Yang & Ping Hu & Siheng Zhao & Kaili Zhang & Xiaozhuan Zhang & Meng You & Jiabao Cui & Juhui Jiang & Xiangdong Lou & Q. Jason Niu, 2024. "Self-assembled dendrimer polyamide nanofilms with enhanced effective pore area for ion separation," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-023-44530-2
    DOI: 10.1038/s41467-023-44530-2
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    1. Yue-xiao Shen & Woochul Song & D. Ryan Barden & Tingwei Ren & Chao Lang & Hasin Feroz & Codey B. Henderson & Patrick O. Saboe & Daniel Tsai & Hengjing Yan & Peter J. Butler & Guillermo C. Bazan & Will, 2018. "Publisher Correction: Achieving high permeability and enhanced selectivity for Angstrom-scale separations using artificial water channel membranes," Nature Communications, Nature, vol. 9(1), pages 1-1, December.
    2. Peipei Zuo & Chunchun Ye & Zhongren Jiao & Jian Luo & Junkai Fang & Ulrich S. Schubert & Neil B. McKeown & T. Leo Liu & Zhengjin Yang & Tongwen Xu, 2023. "Near-frictionless ion transport within triazine framework membranes," Nature, Nature, vol. 617(7960), pages 299-305, May.
    3. Yuzhang Zhu & Liangliang Gui & Ruoyu Wang & Yunfeng Wang & Wangxi Fang & Menachem Elimelech & Shihong Lin & Jian Jin, 2023. "Regulation of molecular transport in polymer membranes with voltage-controlled pore size at the angstrom scale," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    4. Liang Shen & Ruihuan Cheng & Ming Yi & Wei-Song Hung & Susilo Japip & Lian Tian & Xuan Zhang & Shudong Jiang & Song Li & Yan Wang, 2022. "Polyamide-based membranes with structural homogeneity for ultrafast molecular sieving," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    5. David S. Sholl & Ryan P. Lively, 2016. "Seven chemical separations to change the world," Nature, Nature, vol. 532(7600), pages 435-437, April.
    6. Changwei Zhao & Yanjun Zhang & Yuewen Jia & Bojun Li & Wenjing Tang & Chuning Shang & Rui Mo & Pei Li & Shaomin Liu & Sui Zhang, 2023. "Polyamide membranes with nanoscale ordered structures for fast permeation and highly selective ion-ion separation," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    7. Yue-xiao Shen & Woochul Song & D. Ryan Barden & Tingwei Ren & Chao Lang & Hasin Feroz & Codey B. Henderson & Patrick O. Saboe & Daniel Tsai & Hengjing Yan & Peter J. Butler & Guillermo C. Bazan & Will, 2018. "Achieving high permeability and enhanced selectivity for Angstrom-scale separations using artificial water channel membranes," Nature Communications, Nature, vol. 9(1), pages 1-11, December.
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