Recent advances in MOFs-based proton exchange membranes

Tipo de material: Texto

TextoSeries Coordination Chemistry Reviews, 471, p.214740, 2022Trabajos contenidos:

Liu, Y. R
Chen, Y. Y
Zhuang, Q
Li, G

Tema(s):

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Resumen: To overcome the defects of traditional proton exchange membranes (PEMs) (Nafion and Nafion-based membranes, etc.), the introduction of proton-conducting MOFs with performance advantages into the PEM system is a smart strategy, many exciting research results have emerged one after another in recent years. For the convenience of researchers and to explore trends for future development, in this review. MOF-based PEMs are divided into the mixed-matrix membranes using MOFs as fillers and PEMs formed by MOFs directly based on different film-forming methods, and the properties of these PEMs are concluded. The following aspects were focused on the preparation strategies and techniques, stability (covering thermal-, water-, chemical-, and mechanical stabilities, etc.), proton conductive properties under damp or anhydrous conditions, and proton conduction mechanism, and structure-activity relationship. Finally, the prospects and challenges of future research are highlighted.

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Artículo

To overcome the defects of traditional proton exchange membranes (PEMs) (Nafion and Nafion-based membranes, etc.), the introduction of proton-conducting MOFs with performance advantages into the PEM system is a smart strategy, many exciting research results have emerged one after another in recent years. For the convenience of researchers and to explore trends for future development, in this review. MOF-based PEMs are divided into the mixed-matrix membranes using MOFs as fillers and PEMs formed by MOFs directly based on different film-forming methods, and the properties of these PEMs are concluded. The following aspects were focused on the preparation strategies and techniques, stability (covering thermal-, water-, chemical-, and mechanical stabilities, etc.), proton conductive properties under damp or anhydrous conditions, and proton conduction mechanism, and structure-activity relationship. Finally, the prospects and challenges of future research are highlighted.

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