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Roles of MnO 2 Colloids and Mn(III) during the Oxidation of Organic Contaminants by Permanganate.

Shuchang WangJie ChenYuankui SunBo SunJunlian QiaoXiaohong Guan
Published in: Environmental science & technology (2022)
Although intermediate manganese species can be generated during the reactions of permanganate (Mn(VII)) with organic pollutants in water, the role of the in situ generated MnO 2 colloids in the Mn(VII) oxidation process remained controversial and the contribution of Mn(III) was largely neglected. This study showed that the apparent second-order rate constants ( k app ) of Mn(VII) oxidation of methyl phenyl sulfoxide and carbamazepine remained constant with time. However, the degradation of four selected phenolic contaminants by Mn(VII) exhibited an autoaccelerating trend and a linear trend at pH 3.0-6.0 and pH 7.0-9.0, respectively. Multiple lines of evidence revealed that the occurrence of the autoaccelerating trend in the Mn(VII) oxidation process was ascribed to the oxidation of the phenolic organics by MnO 2 colloids. The influence of pyrophosphate on the oxidation of different organic contaminants by MnO 2 colloids suggests that Mn(III) was also responsible for the autoaccelerating oxidation of organic contaminants by Mn(VII) under specific reaction conditions. The kinetic models revealed that the overall contributions of MnO 2 colloids and Mn(III) ranged within 6.6-67.9% during the autoaccelerating oxidation of phenolic contaminants by Mn(VII). These findings advance the understanding of the roles of MnO 2 colloids and Mn(III) in the Mn(VII) oxidation process.
Keyphrases
  • room temperature
  • transition metal
  • hydrogen peroxide
  • metal organic framework
  • drinking water
  • electron transfer
  • nitric oxide
  • computed tomography