Fouling-Resistant Membranes with Tunable Pore Size Fabricated Using Cross-Linkable Copolymers with High Zwitterion Content

IF 4.9 Q1 ENGINEERING, CHEMICAL Journal of Membrane Science Letters Pub Date : 2022-05-01 DOI:10.1016/j.memlet.2022.100019
Samuel J. Lounder, Patrick T. Wright, Luca Mazzaferro, Ayse Asatekin
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引用次数: 4

Abstract

This work describes a new approach for synthesizing extremely fouling-resistant, zwitterionic membranes with controlled, tunable pore sizes that extend from ion separations (< 1 nm) to the ultrafiltration range (∼2 nm). These membranes are manufactured by the UV treatment of high zwitterion content amphiphilic copolymers with cross-linkable functionality to stabilize the membrane selective layers, preventing excessive swelling and dissolution of copolymers containing as high as 80 wt% zwitterionic repeat units. Zwitterion weight fraction allows the tuning of membrane performance, with effective pore size and permeance both increasing with zwitterion content. The high zwitterion content membranes were remarkably fouling-resistant and demonstrated a salt-responsive behavior not previously observed with self-assembling zwitterionic copolymer membranes.

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用高两性离子含量的交联共聚物制备孔径可调的抗污膜
这项工作描述了一种合成极耐污两性离子膜的新方法,该膜具有可控制的、可调节的孔径,可从离子分离(<1 nm)至超滤范围(~ 2 nm)。这些膜是由具有交联功能的高两性离子含量的两亲性共聚物的紫外线处理制造的,以稳定膜的选择层,防止含有高达80%两性离子重复单元的共聚物过度膨胀和溶解。两性离子质量分数允许调节膜的性能,有效孔径和渗透率都随着两性离子含量的增加而增加。高两性离子含量的膜具有显著的耐污性,并表现出先前在自组装两性离子共聚物膜中未观察到的盐响应行为。
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