Metal-organic-frameworks (MOFs) are emerging materials used in the environmental electrochemistry community for Faradaic and non-Faradaic water remediation technologies. It has been concluded that MOF-based materials show improvement in performance compared to traditional (non-)faradaic materials. In particular, this review outlines MOF synthesis and their application in the fields of electron- and photoelectron-Fenton degradation reactions, photoelectrocatalytic degradations, and capacitive deionization physical separations. This work overviews the main electrode materials used for the different environmental remediation processes, discusses the main performance enhancements achieved via the utilization of MOFs compared to traditional materials, and provides perspective and insights for the further development of the utilization of MOF-derived materials in electrified water treatment.
Keywords: capacitive deionization (CDI); carbonized metal–organic framework (MOFC); electro-Fenton; electrocatalysis; electrochemical advanced oxidation processes (EAOPs); metal–organic framework (MOF); photoelectrocatalysis; water treatment; zeolitic imidazolate frameworks (ZIF).