Bio-synthesis of molecularly imprinted membrane with photo-regeneration availability for selective separation applications

J. Lu, Y. Y. Qin, Y. L. Wu, Z. Zhu, M. N. Chen, Y. S. Yan, C. X. Li

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摘要

Since the in-depth exploration of molecularly imprinted membranes (MIMs), compatibility between high selectivity and superior regeneration has been always the focus. Here we propose, based on biomimetic self-polymerization of dopamine, highly specific, self-cleaning, and interfacial-stable g-C3N4/Ag3PO4/PDA-composited molecularly imprinted membranes (C/A/D-MIMs) for enhanced treatment of fit-for-purpose water. Ciprofloxacin (CFX) was selected as a representative target because of its potential toxic effect on the microorganism, which will inevitably weaken the traditional biological-based water treatment. Besides superior antifouling performance, remarkable permselectivity (βNFX/CFX = 1.65, βEFX/CFX = 1.90, and βOFX/CFX = 2.08) and flux regeneration rate (84.4% after photo-regeneration) could be ascribed to (i) effective formation of molecularly imprinted sites by self-polymerization of dopamine, (ii) synergism of polydopamine in constructing Z-scheme heterojunction configuration, as well as (iii) bio-adhesion of polydopamine in coupling photocatalyst and MIMs. Achievements in the present work will promote the development of highly specific and self-cleaning MIMs with considerable stability and applications in specific and selective separation.

源语言英语
文章编号100836
期刊Materials Today Chemistry
24
DOI
出版状态已出版 - 6月 2022
已对外发布

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