Photocatalytic Degradation of Herbicide Quinmerac in Various Types of Natural Water

N. Despotović, Vesna; F. Abramović, Biljana; V. Å ojić, Daniela; J. Kler, Sanja; B. Dalmacija, Milena; J. Bjelica, Luka; Z. OrÄić, Dejan

Photocatalytic Degradation of Herbicide Quinmerac in Various Types of Natural Water

2012

The efficiency of the photocatalytic degradation of the herbicide quinmerac in aqueous TiO2 suspensions was examined as a function of the type of light source, TiO2 loading, pH, temperature, electron acceptors, and hydroxyl radical (.OH) scavenger. The optimum loading of catalyst was found to be 0.25Â mgÂ mL−1 under UV light at pHÂ 7.2, with the apparent activation energy of the reaction being 13.7Â kJÂ mol−1. In the first stage of the reaction, the photocatalytic degradation of quinmerac (50Â μM) followed approximately a pseudo-first order kinetics. The most efficient electron acceptor appeared to be H2O2 along with molecular oxygen. By studying the effect of ethanol as an .OH scavenger, it was shown that the heterogeneous catalysis takes place mainly via .OH. The results also showed that the disappearance of quinmerac led to the formation of a number of organic intermediates and ionic byproducts, whereas its complete mineralization occurred in about 120Â min. The reaction intermediates (7-chloro-3-methylquinoline-5,8-dione, three isomeric phenols hydroxy-7-chloro-3-methylquinoline-8-carboxylic acids, and 7-chloro-3-(hydroxymethyl)quinoline-8-carboxylic acid) were identified and the kinetics of their appearance/disappearance was followed by LC–ESI–MS/MS. Tentative photodegradation pathways were proposed and discussed. The study also encompassed the effect of quality of natural water on the rate of removal of quinmerac.

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