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Unraveling Different Reaction Characteristics of Alkoxy Radicals in a Co(II)-Activated Peracetic Acid System Based on Dynamic Analysis of Electron Distribution

Huixuan Zhang, Long Chen, Penghui Du, Fan Li, Wen Liu

2024Environmental Science & Technology26 citationsDOI

Abstract

Peracetic acid (PAA)-based advanced oxidation processes (AOPs) have shown broad application prospects in organic wastewater treatment. Alkoxy radicals including CH 3 COO • and CH 3 COOO • are primary reactive species in PAA-AOP systems; however, their reaction mechanism on attacking organic pollutants still remains controversial. In this study, a Co(II)/PAA homogeneous AOP system at neutral pH was constructed to generate these two alkoxy radicals, and their different reaction mechanisms with a typical emerging contaminant (sulfacetamide) were explored. Dynamic electron distribution analysis was applied to deeply reveal the radical-meditated reaction mechanism based on molecular orbital analysis. Results indicate that hydrogen atom abstraction is the most favorable route for both CH 3 COO • and CH 3 COOO • attacking sulfacetamide. However, both radicals cannot react with sulfacetamide via the radical adduct formation route. Interestingly, the single-electron transfer reaction is only favorable for CH 3 COO • due to its lower E SUMO . In comparison, CH 3 COOO • can react with sulfacetamide via a similar radical self-sacrificing bimolecular nucleophilic substitution (S N 2) route owing to its high E SOMO and easy escape of unpaired electrons from n orbitals of O atoms in the peroxy bond. These findings can significantly improve the knowledge of reactivity of CH 3 COO • and CH 3 COOO • on attacking organic pollutants at the molecular orbital level.

Topics & Concepts

Peracetic acidRadicalChemistryPhotochemistryAlkoxy groupHydrogen atom abstractionNucleophileReactivity (psychology)Organic chemistryHydrogen peroxideCatalysisMedicinePathologyAlternative medicineAlkylAdvanced oxidation water treatmentAdvanced Photocatalysis TechniquesElectrochemical Analysis and Applications