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Fe-based metal organic frameworks (Fe-MOFs) for organic pollutants removal via photo-Fenton: A review

•Fe-MOFs were excellent photocatalysts and can effectively activate Fenton reagents to remove organic pollutants.•The application of different types of Fe-MOFs in the photo-Fenton system was presented.•Factors to improve the efficiency of Fe-MOFs under photo- Fenton were identified.•The different ty...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-03, Vol.431, p.133932, Article 133932
Main Authors: Du, Chunyan, Zhang, Yin, Zhang, Zhuo, Zhou, Lu, Yu, Guanlong, Wen, Xiaofeng, Chi, Tianying, Wang, Guoliang, Su, Yihai, Deng, Fangfang, Lv, Yinchu, Zhu, Hao
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Language:English
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Summary:•Fe-MOFs were excellent photocatalysts and can effectively activate Fenton reagents to remove organic pollutants.•The application of different types of Fe-MOFs in the photo-Fenton system was presented.•Factors to improve the efficiency of Fe-MOFs under photo- Fenton were identified.•The different types of Fe-MOFs in photo-Fenton system degradation mechanisms were summarized.•The future development prospects of this technology were proposed. Organic pollutants are stable chemical substances occurring widely in aquatic environments. Their long-term impact on the entire ecosystem has directly resulted in irreversible damage worldwide. Thus, advanced technology is required to restore the water quality. The photo-Fenton process has been widely applied due to its high removal rate of organic pollutants in water. Fe-based metal-organic frameworks (Fe-MOFs) not only have good porosity and catalytic properties but also are non-toxic, abundant, and inexpensive and have promising applications in practical engineering. Fe-MOFs are good photocatalysts and can couple well with Fenton reagents compared with other MOFs. This paper reviews the research progress of Fe-MOFs in the photo-Fenton process and proposes a method to overcome the limitations of the photo-Fenton process. The different factors influencing these processes, the stability and reusability of the materials after use, and the mechanism of the photo-Fenton reaction after the modification of different materials are discussed. Finally, conclusions and the future prospects of Fe-MOFs in photo-Fenton systems for the treatment of wastewater containing organic pollutants are proposed. This study provides a valuable resource for researchers using Fe-MOFs to remove organic pollutants from water bodies.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2021.133932