Akademik Veri Yönetim Sistemi
Journal of Alloys and Compounds, cilt.1032, 2025 (SCI-Expanded)
The all-round increase in pollution, especially the pollution of natural resources worldwide, has become a serious concern for humanity. Saving the remaining available water resources and treating polluted resources are recognized as critical issues. Therefore, using various processes and modern technologies to improve the quality of water resources has garnered significant interest. Among the types of cleaning methods of water sources, advanced oxidation methods, especially Fenton-based processes, are increasingly utilized today. Their high oxidation ability and environmental compatibility are the keys to the success of Fenton-based processes. Homogeneous and heterogeneous catalysts, along with hydrogen peroxide (H2O2), are essential reagents for Fenton-based processes, with or without a light source. Due to the many problems of homogeneous catalysts (Fe2 +) in the Fenton process, using heterogeneous catalysts has attracted much attention. Heterogeneous Mg-based catalysts have been widely used in Fenton-based processes due to the unique properties of Mg metal. In this review, a detailed and comprehensive investigation has been conducted on utilizing magnesium-based catalysts to degrade pollutants in water sources through various Fenton-based processes. Therefore, the present review provides valuable insights for researchers into the high potential of Mg-based materials as efficient catalysts to achieve stability and excellent performance in the purification applications involving Fenton-based processes. The findings from this review suggest that Mg-based catalysts not only enhance pollutant degradation but also offer opportunities for sustainable and widely applicable wastewater treatment solutions.