Porphyrinic metal–organic frameworks as separation membranes: from synthesis to advanced applications

金属有机骨架 材料科学 纳米技术 分离(统计) 化学 有机化学 计算机科学 吸附 生物化学 机器学习
作者
Shabab Hussain,Xinsheng Peng,Lei Wang
出处
期刊:Materials horizons [Royal Society of Chemistry]
卷期号:12 (13): 4608-4638 被引量:7
标识
DOI:10.1039/d5mh00266d
摘要

, synthesize different M-TCPP MOFs with diverse porous nanostructures, exhibiting different nano-morphologies, including ultrathin nano-sheets, -fibers, -particles, and -rods. These nanostructures act as fundamental building blocks for the preparation of both porous and dense membranes. The accessible side functionalities (dangling carboxyl groups) of the TCPP MOFs significantly enhance the hydrophilicity and facilitate the formation of compatible interfaces with various polymers. This enhanced hydrophilicity, coupled with membrane stability in water and under acidic conditions, the presence of surface nanopores and the creation of continuous selective micro-/nano-transport channels (upon the assembly of nanostructures), substantially improves the membrane permeance and selectivity. These attributes make TCPP MOFs membranes suitable for a wide range of separation applications. This review comprehensively summarizes the synthesis strategies of TCPP MOFs, their nano-morphologies, properties, and their integration into state-of-the-art separation membranes, such as mixed matrix membranes (MMMs), thin-film composite (TFC) membranes, and thin-film nanocomposite (TFN) membranes. It examines their performance, discusses challenges, and explores potential solutions. Furthermore, the versatile separation capabilities of TCPP MOFs membranes, including gaseous, liquid, and ionic separation, as well as proton and metal ion conductivity are thoroughly analyzed in the light of mass transport theories and reported mechanisms. This review also delves into the photo-activity and photothermal effects of TCPP MOFs membranes, highlighting their implications for photocatalysis and membrane percolation. Finally, it outlines future directions and identifies potential opportunities for advancing TCPP MOFs membranes, aiming to elevate state-of-the-art separation technologies.
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