Abstract
VUV photolysis presents a simple process for VOCs degradation, while the poor mineralization rate and extensive by-products greatly limit its application. In this study, the contribution and synergy between •OH and •O2− to toluene degradation in the VUV-based process were comprehensively investigated by controlling water and oxygen in the gas flow. It was found that •OH promoted the initial degradation of toluene and macromolecular intermediates, while •O2− dominated toluene mineralization by boosting the formation of small molecules and CO2. Compared with the •OH-dominated VUV photolysis, the presence of catalyst greatly changed the degradation pathway, promoted toluene mineralization into CO2 and reduced health toxicity via promoting •O2− formation. This study originally focuses on the key role of •O2− in VOCs deep oxidation and provides an effective strategy to boost its clean mineralization via the VUV-based process.
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