Efficient persistent organic pollutant removal in water using MIL-metal-organic framework driven Fenton-like reactions: A critical review

In recent years, metal-organic frameworks (MOFs) have stood out in their application in water pollutant degradation via Fenton-like-aided processes. The advent of Materials from Institut Lavoisier (MIL) MOFs has attracted more research to eliminate these target pollutants better. This review is focused on the current developments that enabled higher Fenton-like activity of MIL-MOFs towards the degradation of persistent organic pollutants (POPs) residing in water. For the first time, MIL-MOFs were evaluated in terms of POPs and Fenton like reactions. The first section considers the structural modification of MIL-MOF catalysts examining their metal sites, additional units, and catalyst preparation. Moreover, the core factors based on the type of Fenton-like system and reaction parameters were assessed. A discussion was made on the potential practical applications and the current situation of Fenton-like reactions. To conclude, challenges and a comprehensive outlook were offered for researchers in wastewater treatment and crystalline material application to exploit these catalysts.

Automated summary

This review focuses on the application of metal-organic frameworks (MOFs) in the degradation of water pollutants, particularly the higher Fenton-like activity of MIL-MOFs towards persistent organic pollutants (POPs). The review examines the structural modification of MIL-MOF catalysts, the influence of reaction parameters, and discusses the practical applications and current situation of Fenton-like reactions. Challenges and future prospects are also provided to guide researchers in wastewater treatment and crystalline material application.