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New Insights into the Role of Humic Acid in Permanganate Oxidation of Diclofenac: A Novel Electron Transfer Mechanism.

Yang ZhouZhu ZengJunhao FuYuan GaoJinxing MaZhong ZhangDaoyuan ZuBin HanXixin LuJun MaJin Jiang
Published in: Environmental science & technology (2024)
Humic acid (HA) ubiquitously existing in aquatic environments has been reported to significantly impact permanganate (KMnO 4 ) decontamination processes. However, the underlying mechanism of the KMnO 4 /HA system remained elusive. In this study, an enhancing effect of HA on the KMnO 4 oxidation of diclofenac (DCF) was observed over a wide solution pH range of 5-9. Surprisingly, the mechanism of HA-induced enhancement varied with solution pH. Quenching and chemical probing experiments revealed that manganese intermediates (Mn(III)-HA and MnO 2 ) were responsible for the enhancement under acidic conditions but not under neutral and alkaline conditions. By combining KMnO 4 decomposition, galvanic oxidation process experiments, electrochemical tests, and FTIR and XPS analysis, it was interestingly found that HA could effectively mediate the electron transfer from DCF to KMnO 4 in neutral and alkaline solutions, which was reported for the first time. The formation of an organic-catalyst complex (i.e., HA-DCF) with lower reduction potential than the parent DCF was proposed to be responsible for the accelerated electron transfer from DCF to KMnO 4 . This electron transfer likely occurred within the complex molecule formed through the interaction between HA-DCF and KMnO 4 (i.e., HA-DCF-KMnO 4 ). These results will help us gain a more comprehensive understanding of the role of HA in the KMnO 4 oxidation processes.
Keyphrases
  • electron transfer
  • ionic liquid
  • risk assessment
  • room temperature
  • gold nanoparticles
  • nitric oxide
  • single molecule
  • endothelial cells
  • human health