Recent Progress and Challenges in the Field of Metal–Organic Framework-Based Membranes for Gas Separation

Compounds Pub Date : 2024-02-02 DOI:10.3390/compounds4010007
Shunsuke Tanaka, Kojiro Fuku, Naoki Ikenaga, Maha Sharaf, Keizo Nakagawa
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Abstract

Metal–organic frameworks (MOFs) represent the largest class of materials among crystalline porous materials ever developed, and have attracted attention as core materials for separation technology. Their extremely uniform pore aperture and nearly unlimited structural and chemical characteristics have attracted great interest and promise for applying MOFs to adsorptive and membrane-based separations. This paper reviews the recent research into and development of MOF membranes for gas separation. Strategies for polycrystalline membranes and mixed-matrix membranes are discussed, with a focus on separation systems involving hydrocarbon separation, CO2 capture, and H2 purification. Challenges to and opportunities for the industrial deployment of MOF membranes are also discussed, providing guidance for the design and fabrication of future high-performance membranes. The contributions of the underlying mechanism to separation performance and adopted strategies and membrane-processing technologies for breaking the selectivity/permeability trade-off are discussed.
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基于金属有机框架的气体分离膜领域的最新进展与挑战
金属有机框架(MOFs)是迄今为止晶体多孔材料中最大的一类材料,作为分离技术的核心材料备受关注。MOFs 极其均匀的孔径和近乎无限的结构和化学特性引起了人们的极大兴趣,也为将 MOFs 应用于吸附分离和膜分离带来了希望。本文综述了近期对用于气体分离的 MOF 膜的研究和开发。本文讨论了多晶膜和混合基质膜的策略,重点是涉及碳氢化合物分离、二氧化碳捕获和 H2 净化的分离系统。还讨论了工业应用 MOF 膜所面临的挑战和机遇,为未来高性能膜的设计和制造提供指导。还讨论了基本机制对分离性能的贡献,以及打破选择性/渗透性权衡所采用的策略和膜处理技术。
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