混合基质膜的合成及应用研究进展

Iman Salahshoori, A. Seyfaee, A. Babapoor
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引用次数: 29

摘要

研究人员目前正在考虑膜分离技术,因为它环保,过程简单,效率高。选择一种合适的、高效的操作是分离工业领域研究人员关注的首要问题。近几十年来,高分子膜和无机膜在分离工业中取得了重大进展。聚合物膜和无机膜由于在渗透性和选择性方面具有竞争力而受到挑战。在聚合物基体中结合纳米颗粒填料是提高聚合物膜与无机膜分离效率的有效方法。混合基质膜(MMMs)由于具有良好的机械、物理化学和转移性能而受到分离工业的重视。此外,气体分离、油处理、重金属离子去除、水处理和油水分离是mmmm的常见应用。选择合适的聚合物共混物和填料是mmmm结构的关键。具有相近溶解度参数的橡胶和玻璃聚合物的结合提高了mm的性能。填料类型和合成方法也显著影响了mm的形态和转移性能。分子筛、氧化石墨烯(GO)、纳米二氧化硅、碳纳米管(CNTs)、沸石咪唑骨架(ZIFs)和金属有机骨架(MOFs)作为填充剂用于MMMs的合成。最后,溶液混合、原位聚合和溶胶-凝胶是主要的合成方法。
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Recent advances in synthesis and applications of mixed matrix membranes
Researchers are currently considering membranes separation processes due to their eco-friendly, process simplicity and high efficiency. Selecting a suitable and efficient operation is the primary concern of researchers in the field of separation industries. In recent decades, polymeric and inorganic membranes in the separation industry have made significant progress. The polymeric and inorganic membranes have been challenged due to their competitiveness in permeability and selectivity factors. A combination of nanoparticle fillers within the polymer matrix is an effective method to increase polymeric and inorganic membranes’ efficiency in separation processes. Mixed matrix membranes (MMMs) have been considered by the separation industry due to high mechanical and physicochemical, and transfer properties.  Moreover, gas separation, oil treatment, heavy metal ions removal, water treatment and oil-water separation are common MMMs applications. Selecting suitable polymer blends and fillers is the key to the MMMs construction. The combination of rubbery and glassy polymers with close solubility parameters increases the MMMs performance. The filler type and synthesis methods also affect the morphological and transfer properties of MMMs significantly. Zeolites, graphene oxide (GO), nanosilica, carbon nanotubes (CNTs), zeolite imidazole frameworks (ZIFs) and metal-organic frameworks (MOFs) are used in the MMMs synthesis as fillers. Finally, solution mixing, polymerization in situ and sol-gel are the primary synthesising MMMs methods.
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