Issue 33, 2023

Biomimetic redox-responsive smart coatings with resistance-release functions for reverse osmosis membranes

Abstract

Membrane fouling induces catastrophic loss of separation performance and seriously restricts the applications of reverse osmosis (RO) membranes. Inspired by the mussel structure, polydopamine (PDA) and cystamine molecules (CA) with excellent anti-fouling properties were used to prepare accessible, biocompatible, and redox-responsive coatings for RO membranes. The PDA/CA-coated RO membranes exhibit a superior water flux of 65 L m−2 h−1 with a favourable NaCl rejection exceeding 99%. The water permeability through the PDA/CA-coated membrane is much higher than that of most membranes with similar rejection rates. Due to the formed protective hydration layers by PDA/CA coatings, anti-fouling properties against proteins, polysaccharides and surfactants were evaluated separately, and ultralow fouling properties were demonstrated. Moreover, the disulfide linkages in CA molecules can cleave in a reducing environment, yielding the degradation of PDA/CA coatings, thereby removing the foulants deposited on the coatings. The degradation endows the coated membranes with satisfying longtime anti-fouling properties, where the flux recovery reaches up to 90%. The construction of redox-responsive smart coatings not only provided a promising route to alleviate membrane fouling but can also be upscaled for use in numerous practical applications like sensors, medical devices, and drug delivery.

Graphical abstract: Biomimetic redox-responsive smart coatings with resistance-release functions for reverse osmosis membranes

Supplementary files

Article information

Article type
Paper
Submitted
22 4 2023
Accepted
14 7 2023
First published
15 7 2023

J. Mater. Chem. B, 2023,11, 7950-7960

Biomimetic redox-responsive smart coatings with resistance-release functions for reverse osmosis membranes

Y. Wu, X. Li, J. Zhao, X. Yang, Y. Cai, H. Jiang, Y. Sun, N. Wei, Y. Liu, Y. Li, Z. Yang, M. Jiang and J. Gai, J. Mater. Chem. B, 2023, 11, 7950 DOI: 10.1039/D3TB00904A

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