Permanganate activation with Mn oxides at different oxidation states: Insight into the surface-promoted electron transfer mechanism.

The development of new strategies to improve the removal of organic pollutants with permanganate (KMnO) is a hot topic in water treatment. While Mn oxides have been extensively used in Advanced Oxidation Processes through an electron transfer mechanism, the field of KMnO activation remains relatively unexplored. Interestingly, this study has discovered that Mn oxides with high oxidation states including γ-MnOOH, α-MnO and α-MnO, exhibited excellent performance to degrade phenols and antibiotics in the presence of KMnO. The MnO species initially formed stable complexes with the surface Mn(III/IV) species and showed an increased oxidation potential and electron transfer reactivity, caused by the electron-withdrawing capacity of the Mn species acting as Lewis acids. Conversely, for MnO and γ-MnO with Mn(II) species, they reacted with KMnO to produce cMnO with very low activity for phenol degradation. The direct electron transfer mechanism in α-MnO/KMnO system was further confirmed through the inhibiting effect of acetonitrile and the galvanic oxidation process. Moreover, the adaptability and reusability of α-MnO in complicated waters indicated its potential for application in water treatment. Overall, the findings shed light on the development of Mn-based catalysts for organic pollutants degradation via KMnO activation and understanding of the surface-promoted mechanism.