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W4286688105 endingPage "108322" @default.
W4286688105 startingPage "108322" @default.
W4286688105 abstract "Quinoline is a typical representative of nitrogen-containing heterocycles that exhibits significant biological toxicity and teratogenic effects. The degradation of quinoline is challenging due to the long reaction time, high energy consumption, and difficulty in achieving successful degradation to harmless substances. In this paper, a novel copper-substituted iron-lanthanide (LaFe1−xCuxO3) catalyst was prepared by a simple molten salt method to degrade quinoline by coupling the catalyst with PDS or H2O2 under visible light. Controlled quinoline degradation experiments were performed to investigate the effect of oxidant concentration, pH, and inorganic anions. The results showed that the Vis/PDS/LaFe1−xCuxO3 system was the most effective for this degradation. The Vis/PDS/LaFe1−xCuxO3 system displayed many advantages. One, the degradation time was only one-third of that of the Vis/H2O2/LaFe1−xCuxO3 system under the same oxidant concentration. Two, the efficiency of this system was optimal under neutral pH conditions, showing potential for application in natural water bodies. Three, the Vis/PDS/LaFe1−xCuxO3 system was not as strongly influenced by the presence of anions. Therefore, this system exhibited higher adaptability. The degradation mechanisms and the pathways of both systems were investigated by EPR, XPS, quenching reactions, and GC-MS. XPS revealed that the high catalytic efficiency of the Vis/PDS/LaFe1−xCuxO3 system was attributed to the synergistic effect of Fe3+/Fe2+and Cu2+/Cu+ redox cycles. 1O2 was identified as the most dominant reactive species in the Vis/PDS/LaFe1−xCuxO3 system, and its contribution was greater than that of SO4•−. On the other hand, the Vis/H2O2/LaFe1−xCuxO3 system was dominated by ·OH. As deduced by GC-MS, the degradation pathways of both systems involved ·OH and SO4•− attacking the benzene or pyridine rings in the quinoline molecule. However, unlike the Vis/PDS/LaFe1−xCuxO3 system, the Vis/H2O2/LaFe1−xCuxO3 system mainly produced styrene and ketones. Thus, the Vis/PDS/LaFe1−xCuxO3 system was more environmentally friendly. Overall, the Vis/PDS/LaFe1−xCuxO3 system can be considered as a clean and green method for treating quinoline-containing industrial wastewater." @default.
W4286688105 created "2022-07-23" @default.
W4286688105 creator A5007472107 @default.
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W4286688105 date "2022-10-01" @default.
W4286688105 modified "2023-10-15" @default.
W4286688105 title "Synergistic effects of Vis/H2O2/LaFe1−xCuxO3 and Vis/PDS/LaFe1−xCuxO3 for quinoline degradation: Performance and mechanism" @default.
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W4286688105 doi "https://doi.org/10.1016/j.jece.2022.108322" @default.
W4286688105 hasPublicationYear "2022" @default.
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