期刊
ADVANCED SUSTAINABLE SYSTEMS
卷 5, 期 4, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adsu.202000288
关键词
EPR spectroscopy; hydroxyl radicals; mineralization; reactive oxygen species; water-soluble organics
资金
- CSIR [01(2977)/19/EMR-II]
A catalytic system using silver metavanadate to activate peroxodisulfate and generate ROS in water has been developed for efficient degradation of water-soluble pollutants, leading to complete carbon mineralization into carbon dioxide. In-situ EPR studies show that hydroxyl radicals are formed through sulfate radical anions and act as the ROS for organic pollutant degradation, alongside monitoring the catalyst stability through various characterization techniques.
Reactive oxygen species (ROS) containing sulfate and hydroxyl radicals can act as Fenton type reagents to remove organic contaminants from water. Here, a catalytic system silver metavanadate is reported for the activation of peroxodisulfate in an aqueous medium to generate ROS, which is further utilized for the efficient degradation of the water-soluble pollutants such as phenols, pesticides, antibiotics, and organic dyes. Remarkably, complete carbon mineralization of the water-soluble contaminants is achieved to form carbon dioxide as the major product. In-situ electron paramagnetic resonance (EPR) studies combined with ex-situ methods reveal that a massive amount of hydroxyl radicals ((OH)-O-center dot) are formed through sulfate radical anions (SO4 center dot-) and act as the ROS for the organic pollutant degradation. In addition, the stability of the catalyst is monitored by various characterization techniques.
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