Three-dimensional covalent organic frameworks for advanced membrane separations

Kai Sheng , Junyong Zhu , Lei Ge , Jiale Du , Tingting Luo , Lei Jiang , Wenheng Jing , Shi-Peng Sun , Yatao Zhang , Bart Van der Bruggen
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Abstract

Three-dimensional covalent organic frameworks (3D COFs) have emerged as a promising class of crystalline materials due to large surface areas, interconnected porosity, and accessible active sites. Their structural versatility, enabled by the judicious selection of organic building blocks, allows for precise tuning of pore size, architecture, and functionality. These unique attributes position 3D COFs as ideal candidates for the development of tailored membrane materials capable of high-performance separations. This review provides a comprehensive overview of the synthesis methodologies and applications of 3D COF-based membranes. The critical role of their pore size, topology, stability, hydrophilicity/hydrophobicity and surface charge on membrane structure and performance is examined. In addition, various fabrication methods for 3D COF-based membranes (e.g., blending, in situ growth, and interfacial polymerization) are presented. The usage of 3D COF-based membranes in diverse fields such as gas separation, water treatment, organic solvent nanofiltration, pervaporation, and proton exchange is also outlined. The review concludes by identifying key challenges and outlining future research directions for advancing the field of 3D COF-based membranes.

Abstract Image

用于高级膜分离的三维共价有机框架
三维共价有机框架(3D COFs)具有较大的表面积、相互连接的孔隙度和可访问的活性位点,因此已成为一类前景广阔的晶体材料。通过明智地选择有机结构单元,三维共价有机框架可实现对孔隙大小、结构和功能的精确调整,从而实现其结构的多样性。这些独特的属性使三维 COFs 成为开发能进行高性能分离的定制膜材料的理想候选材料。本综述全面概述了基于三维 COF 的膜的合成方法和应用。研究了孔径、拓扑结构、稳定性、亲水性/疏水性和表面电荷对膜结构和性能的关键作用。此外,还介绍了三维 COF 基膜的各种制造方法(如混合、原位生长和界面聚合)。还概述了三维 COF 基膜在气体分离、水处理、有机溶剂纳滤、渗透蒸发和质子交换等不同领域的应用。综述最后指出了推进三维 COF 基膜领域的关键挑战并概述了未来的研究方向。
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CiteScore
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