In
this study, a permanganate/redox mediator system for enhanced
transformation of a series of emerging contaminants was evaluated.
The presence of various redox mediators (i.e., 1-hydroxybenzotriazole, N-hydroxyphthalimide, violuric acid, syringaldehyde, vanillin,
4-hydroxycoumarin, and p-coumaric acid) accelerated
the degradation of bisphenol A (BPA) by Mn(VII). Since 1-hydroxybenzotriazole
(HBT) exhibited the highest reactive ability, it was selected to further
investigate the reaction mechanisms and quantify the effects of important
reaction parameters on Mn(VII)/redox-mediator reactions with BPA and
bisphenol AF (BPAF). Interestingly, not only HBT accelerated the degradation
of BPA, but also BPA enhanced the decay of HBT. Evidence for the in
situ formation of HBT· radicals as the active oxidant
responsible for accelerated BPA and BPAF degradation was obtained
by radical scavenging experiments and 31P NMR spin trapping
techniques. The routes for HBT· radical formation
involving Mn(VII) and the electron-transfer pathway from BPA/BPAF
to HBT· radicals demonstrate that the Mn(VII)/HBT
system was driven by the electron-transfer mechanism. Compared to
Mn(VII) alone, the presence of HBT totally inhibited self-coupling
of BPA and BPAF and promoted β-scission, hydroxylation, ring
opening, and decarboxylation reactions. Moreover, Mn(VII)/HBT is also
effective in real waters with the order of river water > wastewater
treatment plant (WWTP) effluent > deionized water.
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