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Lignin alkali regulated interfacial polymerization towards ultra-selective and highly permeable nanofiltration membrane

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  • Wentian Zhang

    (Sun Yat-sen University
    Guangdong Provincial Key Laboratory of Environmental Pollution Control and Remediation Technology)

  • Shanshan Zhao

    (Sun Yat-sen University
    Guangdong Provincial Key Laboratory of Environmental Pollution Control and Remediation Technology)

  • Haiyun Li

    (Sun Yat-sen University
    Guangdong Provincial Key Laboratory of Environmental Pollution Control and Remediation Technology)

  • Cunxian Lai

    (Sun Yat-sen University
    Guangdong Provincial Key Laboratory of Environmental Pollution Control and Remediation Technology)

  • Shangwei Zhang

    (Beijing Normal University)

  • Wu Wen

    (Beijing Normal University)

  • Chuyang Y. Tang

    (The University of Hong Kong)

  • Fangang Meng

    (Sun Yat-sen University
    Guangdong Provincial Key Laboratory of Environmental Pollution Control and Remediation Technology)

Abstract

Thin-film composite polyamide (TFC PA) membranes hold promise for energy-efficient liquid separation, but achieving high permeance and precise separation membrane via a facile approach that is compatible with present manufacturing line remains a great challenge. Herein, we demonstrate the use of lignin alkali (LA) derived from waste of paper pulp as an aqueous phase additive to regulate interfacial polymerization (IP) process for achieving high performance nanofiltration (NF) membrane. Various characterizations and molecular dynamics simulations revealed that LA can promote the diffusion and partition of aqueous phase monomer piperazine (PIP) molecules into organic phase and their uniform dispersion on substrate, accelerating the IP reaction and promoting greater interfacial instabilities, thus endowing formation of TFC NF membrane with an ultrathin, highly cross-linked, and crumpled PA layer. The optimal membrane exhibited a remarkable water permeance of 26.0 L m-2 h-1 bar-1 and Cl-/SO42- selectivity of 191.0, which is superior to the state-of-the-art PA NF membranes. This study provides a cost-effective scalable strategy for fabricating ultra-selective and highly permeable NF membrane for precise ion-ion separation and small organic compounds removal.

Suggested Citation

  • Wentian Zhang & Shanshan Zhao & Haiyun Li & Cunxian Lai & Shangwei Zhang & Wu Wen & Chuyang Y. Tang & Fangang Meng, 2025. "Lignin alkali regulated interfacial polymerization towards ultra-selective and highly permeable nanofiltration membrane," Nature Communications, Nature, vol. 16(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-024-55595-y
    DOI: 10.1038/s41467-024-55595-y
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    References listed on IDEAS

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    1. Donglin Gan & Wensi Xing & Lili Jiang & Ju Fang & Cancan Zhao & Fuzeng Ren & Liming Fang & Kefeng Wang & Xiong Lu, 2019. "Plant-inspired adhesive and tough hydrogel based on Ag-Lignin nanoparticles-triggered dynamic redox catechol chemistry," Nature Communications, Nature, vol. 10(1), pages 1-10, December.
    2. Shuangqiao Han & Junyong Zhu & Adam A. Uliana & Dongyang Li & Yatao Zhang & Lin Zhang & Yong Wang & Tao He & Menachem Elimelech, 2022. "Microporous organic nanotube assisted design of high performance nanofiltration membranes," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    3. Meagan S. Mauter & Ines Zucker & François Perreault & Jay R. Werber & Jae-Hong Kim & Menachem Elimelech, 2018. "The role of nanotechnology in tackling global water challenges," Nature Sustainability, Nature, vol. 1(4), pages 166-175, April.
    4. 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.
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