过氧化氢
高锰酸盐
高锰酸钾
化学
氧化法
过程(计算)
环境化学
污染
高级氧化法
过氧化物
无机化学
化学工程
有机化学
催化作用
计算机科学
工程类
生态学
生物
操作系统
作者
Run Huang,Qin Guo,Chaoting Guan,Beiping Zhang,Jin Jiang
标识
DOI:10.1021/acsestengg.3c00499
摘要
Hydrogen peroxide (H2O2) has recently been reported as a novel activator for enhancing permanganate (Mn(VII)) oxidation, where the removal of trace organic contaminants (TrOCs) was mainly ascribed to the contribution of Mn(VI). This study reassessed the performance and mechanism of the Mn(VII)/H2O2 process for TrOC removal and identified the role of diverse potential reactive species (i.e., intermediate manganese species and radicals). The maximum removal efficiency of organics by the Mn(VII)/H2O2 process was achieved at a [H2O2]/[Mn(VII)] ratio of 1, and acidic pH conditions were conducive to the reactions. UV–vis and XPS spectra suggested the in situ formation of MnO2 in the Mn(VII)/H2O2 process. Degradation of structurally diverse TrOCs by the Mn(VII)/H2O2 process and Mn(VII)/MnO2 process exhibited similar selectivity and pH-dependence, implying that the in situ-formed MnO2 should play an important role in catalyzing Mn(VII) oxidation toward TrOCs in the Mn(VII)/H2O2 process. In addition, the degradation kinetics of TrOCs in the Mn(VII)/H2O2 process were generally higher in phosphate buffer than those in borate buffer, which was attributed to the contribution of Mn(III)–phosphate complexes. The formation of Mn(III) in the presence of ligands (e.g., phosphate, pyrophosphate) was proved via UV–vis spectra and ligand concentration experiments. Based on results from the methyl phenyl sulfoxide (PMSO) probe and metal ion effect experiments, the possible involvement of high-valent manganese species (i.e., Mn(V)/Mn(VI)) was ruled out. Moreover, the results of radical quenching experiments indicated the negligible contribution of O2•– and •OH. Findings in this study advance the mechanistic understanding of a novel oxidation process by combining Mn(VII) with H2O2 for environmental decontamination.
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