Discerning the Relevance of Singlet Oxygen in Pollutant Degradation in Peroxymonosulfate Activation Processes.
Hongchao LiXinyue ZhangShuai YangYibing SunJieshu QianPublished in: Environmental science & technology (2024)
Significant efforts have recently been exerted toward construction of singlet oxygen ( 1 O 2 )-dominated catalytic oxidation systems for selective removal of organic contaminants from wastewater, with peroxides serving as the chemical source. However, the relevance of 1 O 2 in the removal of pollutants remains ambiguous and requires elucidation. In this study, we scrupulously exclude the significant role of 1 O 2 in contaminant degradation in various peroxymonosulfate (PMS) activation systems. Multiple experimental results indicate that the activation of PMS catalyzed by CuO, MnO 2 , Fe-doped g-C 3 N 4 (Fe-CN), or N-doped graphite does not predominantly follow the 1 O 2 pathway. More importantly, the reactivity of 1 O 2 is remarkably overestimated in the literature, given its inferior capacity in degradation of a range of heterocyclic contaminants and aromatic compounds possessing electron-withdrawing groups. In addition, the strong physical quenching effect of water, coupled with the low oxidizing ability of 1 O 2 , would notably reduce the utilization efficiency of peroxide, which is particularly apparent in the degradation of micropollutants. We reckon that this study is expected to end the long-running dispute associated with the relevance of 1 O 2 in pollutant removal.