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Heat induced superfast diclofenac removal in Cu(II)–activated peracetic acid system: Mediation from non-radical to radical pathway

Jieli Ou, Jiewen Deng, Zhenran Wang, Yongsheng Fu, Yiqing Liu

2023Chemosphere25 citationsDOIOpen Access PDF

Abstract

A Cu(II)/heat coactivated peracetic acid (PAA) system for enhancing diclofenac (DCF) degradation was proposed in this work. The superiority of this synergetic activation strategy for PAA, working reactive species, catalytic mechanism and effects of reaction parameters on DCF elimination in this system were simultaneously investigated. Based on our results, the DCF loss rate in Cu(II)-heat/PAA process at pH 8.0 was about 49.3 and 4.2 times of that in Cu(II)/PAA and heat/PAA processes, respectively. Increasing the reaction temperature to 60 о C not only motivated the conversion of Cu(II) to Cu(I) but also facilitated the one-electron transfer between Cu(I) and PAA, boosting the generation of radicals. Organic radicals (mainly CH 3 C(O)O• and CH 3 C(O)OO•) were evidenced to be the core oxidizing substances dominating in the destruction of DCF while hydroxyl radical (•OH) made a minor contribution in this system by electron paramagnetic resonance (EPR) method together with scavenging experiments. This study broads the eyes into enhanced PAA activation initiated by homogenous Cu(II), providing a simple but efficient tool to degrade micropollutants.

Topics & Concepts

ChemistryOxidizing agentRadicalPeracetic acidElectron paramagnetic resonanceElectron transferCatalysisHydroxyl radicalPhotochemistryInorganic chemistryNuclear chemistryOrganic chemistryHydrogen peroxideNuclear magnetic resonancePhysicsAdvanced oxidation water treatmentAdvanced Photocatalysis TechniquesEnvironmental remediation with nanomaterials
Heat induced superfast diclofenac removal in Cu(II)–activated peracetic acid system: Mediation from non-radical to radical pathway | Litcius