Elsevier

Water Research

Volume 209, 1 February 2022, 117867
Water Research

Inhibition by phenolic antioxidants of the degradation of aromatic amines and sulfadiazine by the carbonate radical (CO3•−)

https://doi.org/10.1016/j.watres.2021.117867Get rights and content
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Highlights

  • Inorganic carbon oxidation by HO or SO4•− was exploited for CO3•− photoproduction.

  • Anilines degradation by CO3•− was inhibited in the presence of phenols.

  • The inhibition extent depended on the way CO3•− was produced.

  • The inhibition extent was similar when 3CDOM* and CO3•− (from HO) oxidized anilines.

  • DOM antioxidants can affect the fate of anilines in surface waters significantly.

Abstract

The carbonate radical CO3•− and the excited triplet states of chromophoric dissolved organic matter play an important role in the photodegradation of some easily oxidized pollutants in surface waters, such as the aromatic amines. Anilines and sulfadiazine are known to undergo back-reduction processes when their degradation is mediated by the excited triplet states of photosensitizers (triplet sensitization). Back-reduction, which inhibits photodegradation, means that phenols or the antioxidant (mostly phenolic) moieties occurring in the natural dissolved organic matter of surface waters reduce, back to the parent compounds, the radical species derived from the mono-electronic oxidation of anilines and sulfadiazine. Here we show that a similar process takes place as well in the case of substrate oxidation by CO3•−. The carbonate radical was here produced upon oxidation of HCO3/CO32− by either HO, generated by nitrate photolysis, or SO4•−, obtained by photolysis of persulfate. Back-reduction was observed in both cases in the presence of phenols, but at different extents as far as the details of reaction kinetics are concerned, and the occurrence of additional reductants might affect the efficacy by which phenols carry out the reduction process. In particular, when the carbonate radicals were produced by NO3 photolysis in the presence of HCO3/CO32−, the numerical values of [PhOH]1/2 (the phenol concentration that halves the photodegradation rate of the substrate) were 2.19 ± 0.23 µM for aniline, 1.15 ± 0.25 µM for 3-chloroaniline, 1.18 ± 0.26 µM for 4-chloroaniline, and 1.18 ± 0.22 µM for 3,4-dichloroaniline. In contrast, when CO3•− was produced by photolysis of persulfate in the presence of HCO3/CO32−, the corresponding values were 0.28 ± 0.02 µM for aniline and 0.79 ± 0.10 µM for sulfadiazine. Back-reduction has the potential to significantly inhibit photodegradation by CO3•− and excited triplet states in natural waters, and to comparatively increase the importance of HO-mediated degradation that is not affected by the same phenomenon.

Keywords

Back-reduction
Aniline
Phenol
Excited triplet states
Photochemistry

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