An Overview on Development of Membranes Incorporating Branched Macromolecules for Water Treatment

W. Ang, W. Lau, Y. Tan, E. Mahmoudi, A. Mohammad
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引用次数: 4

Abstract

ABSTRACT Membrane technology has evolved to be one of the main filtration processes in various water/wastewater treatment applications. The success of the treatment process lies on the improved properties of membranes, notably water permeation, solute rejection, and antifouling capabilities. Over the past decade, hyperbranched macromolecules that comprise star polymers and dendrimers have gained increasing attention in membrane research as synthesis materials and modifying agents. These macromolecules which are composed of branched structure, high-density terminal functional groups, and large intramolecular free volume could offer an opportunity to design a new generation membrane with desirable characteristics. This review looks into the recent advances in the polymeric membrane synthesis and its modification using branched macromolecules. Highlights are given to the factors contributing to the changes in membrane properties (structural, morphological, and chemical functional groups) and performance after branched macromolecules are used as main membrane forming material or modifying agent. The review also discusses outlook and future works that can be further explored on utilizing branched macromolecules in membrane application. Challenges in promoting and commercializing branched macromolecules-based membranes are also discussed. This review can serve as a valuable reference for further development of membranes with improved performance and functionalities for water treatment application.
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支化大分子水处理膜的研究进展
膜技术已经发展成为各种水/废水处理应用中的主要过滤工艺之一。处理工艺的成功取决于膜性能的改善,特别是水渗透、溶质排斥和防污能力。在过去的十年中,由星形聚合物和树状大分子组成的超支化大分子作为合成材料和改性剂在膜研究中越来越受到关注。这些由支链结构、高密度末端官能团和大的分子内自由体积组成的大分子可以为设计具有理想特性的新一代膜提供机会。本文综述了近年来高分子膜的合成及其支化改性的研究进展。重点介绍了支链大分子作为主要成膜材料或改性剂后,引起膜性质(结构、形态和化学官能团)和性能变化的因素。对支化大分子在膜上的应用进行了展望,并对今后的研究工作进行了展望。讨论了支链高分子基膜在推广和商业化方面面临的挑战。本文综述可为进一步开发性能和功能更好的水处理膜提供有价值的参考。
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