L. Lunar et al., Identification of metol degradation products under Fenton's reagent treatment using liquid chromatography-mass spectrometry, WATER RES, 34(13), 2000, pp. 3400-3412
Many aromatic compounds are oxidized but not completely mineralized by Fent
on's reagent. Little attention has so far been given to the identification
of residual organic matter and the evaluation of its toxicity. In this work
, the oxidation of metol [N-methyl-p-aminophenol] by Fe2+/H2O2 in the dark
as a model for aromatic amines and alcohols was examined. Analysis of oxidi
zed solutions was performed by both LC-electron impact (EI)-MS and LC-elect
rospray ionization (ESI)-MS, It was checked that the degradation of metol t
akes place via direct oxidation by Fe3+ and OH. attack. Intermediates amena
ble to oxidation by OH. are basically partially oxygenated aromatic species
, dimerization products and polymers. End products not amenable to oxidatio
n by this radical are ferrycarboxylate complexes, which are non-toxic to UC
581 bacterial cells. These complexes fan be completely destroyed by irradia
tion with light. The photo-Fenton reaction is therefore an effective choice
for the in situ treatment of industrial effluents containing aromatic amin
es and hydroxylated species. (C) 2000 Elsevier Science Ltd. All rights rese
rved.