4.7 Article

Oxidation of diclofenac by permanganate: Kinetics, products and effect of inorganic reductants

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CHINESE CHEMICAL LETTERS
卷 34, 期 4, 页码 -

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ELSEVIER SCIENCE INC
DOI: 10.1016/j.cclet.2022.06.0331001-8417

关键词

Permanganate; Diclofenac; Aromatic secondary amines; Precursor ionization scanning; Reductant activation

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This study investigated the oxidation kinetics of diclofenac (DCF) by permanganate (Mn(VII)) and explained the previously unclear pH-dependency. The study also proposed a kinetic model involving the formation of an intermediate between Mn(VII) and DCF or its analogues. New degradation pathways of DCF were proposed based on the identified oxidation products, and the introduction of reducing agents such as Mn(II) and bisulfite significantly improved the oxidation kinetics of DCF by Mn(VII).
The large consumption and discharge of diclofenac (DCF) lead to its frequent detection in surface wa-ter and groundwater, posing great threats to humans and ecosystems. This study explored the oxidation kinetics of DCF by permanganate (Mn(VII)), and expounded the underlying reason for the unusual pH -dependency that was unclear in previous studies. The kinetics of DCF analogues (i.e., aromatic secondary amines) by Mn(VII) oxidation were comparatively investigated. Then, a tentative kinetic model involv-ing the formation of an intermediate between Mn(VII) and DCF or its analogues was proposed to fit the pH-rate profile. Since DCF contained two chloro groups, and a carboxyl group which could be ionized by negative electrospray ionization, a precursor ionization scanning approach was used for the first time for detection of N-containing chlorinated oxidation products. New degradation pathways of DCF contain-ing ring opening, carboxylation, carbonylation, electrophilic addition, hydroxylation and dehydrogenation were proposed based on the identified oxidation products. Moreover, it was demonstrated that the intro-duction of various reducing agents such as Mn(II), Fe(II) and bisulfite significantly improved the oxidation kinetics of DCF by Mn(VII). The positive effects of Mn(II) and Fe(II) were mainly attributed to the accel-erated formation of MnO2 that acted as a catalyst or co-oxidizer contributing to DCF degradation. The presence of bisulfite caused two-stage kinetics, where a sharp drop of DCF concentration followed by a slowdown of DCF removal. In the first stage, potent reactive manganese species (e.g., Mn(III), Mn(V), and Mn(VI)) and sulfate radical were generated during reaction of bisulfite with Mn(VII), whereas bisulfite was depleted fast due to excess Mn(VII) concentrations and the system became the Mn(VII)/MnO2 sys-tem in the second stage. These results provide new insight into reaction mechanism of DCF with Mn(VII) as well as propose a feasible strategy for enhancing the treatment of DCF contaminated water by Mn(VII). (c) 2023 Published by Elsevier B.V. on behalf of Chinese Chemical Society and Institute of Materia Medica, Chinese Academy of Medical Sciences.

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