Effect of surfactant structure on MPD diffusion for interfacial polymerization

IF 4.9 Q1 ENGINEERING, CHEMICAL
Shahriar Habib, Bryn E. Larson, Steven T. Weinman
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引用次数: 1

Abstract

Polyamide membranes made with surfactant-assisted interfacial polymerization (IP) have demonstrated the potential for excellent membrane performance. The presence of surfactants accelerates amine diffusion into the organic phase causing a more complete IP reaction. Even though surfactant-assisted IP has been used in polyamide membranes, the structure-property relationship of the surfactants on amine transport into the organic phase has not been explored in a systematic manner. In this work, MPD diffusion from a membrane support into n-dodecane in the presence of seven different surfactants, which were anionic, cationic, and non-ionic, was evaluated. When the surfactants were used at different concentrations, the MPD concentration was increased in the presence of anionic (48–80%), cationic (32–75%) and non-ionic (26%) surfactants. The MPD concentration was increased in the presence of anionic (by 48–72%), cationic (by 32–75%), and non-ionic surfactants (by 26%) at 15–60 s contact time. For further understanding, the interfacial tension in n-dodecane for the surfactants was measured, however, it did not correlate with our data. This study provides a better understanding of MPD diffusion in the presence of different types of surfactants during RO membrane synthesis, which will help us to engineer membranes with better permeability and selectivity.

Abstract Image

表面活性剂结构对界面聚合中MPD扩散的影响
表面活性剂辅助界面聚合(IP)制备的聚酰胺膜已显示出优异膜性能的潜力。表面活性剂的存在加速了胺向有机相中的扩散,导致更完全的IP反应。尽管表面活性剂辅助的IP已用于聚酰胺膜,但表面活性剂对胺向有机相中传输的结构-性质关系尚未得到系统的探索。在这项工作中,评估了在阴离子、阳离子和非离子七种不同表面活性剂存在下,MPD从膜载体扩散到正十二烷中。当表面活性剂以不同浓度使用时,在阴离子(48–80%)、阳离子(32–75%)和非离子(26%)表面活性剂的存在下,MPD浓度增加。在阴离子(48–72%)、阳离子(32–75%)和非离子表面活性剂(26%)存在的情况下,MPD浓度在15–60 s的接触时间内增加。为了进一步理解,测量了表面活性剂在正十二烷中的界面张力,然而,它与我们的数据无关。这项研究更好地了解了在反渗透膜合成过程中,不同类型表面活性剂存在下MPD的扩散,这将有助于我们设计具有更好渗透性和选择性的膜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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