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Possible degradation pathways of triclosan from aqueous systems via TiO2 assisted photocatalyis
Date issued
2018
Author(s)
DOI
10.1016/j.jiec.2017.09.020
Abstract
Triclosan (TCS) is an antimicrobial agent used for personal care products that cannot be removed by
wastewater treatment classical processes. TCS persistence and toxicity is asking for alternative treatment
methods such as TiO2 assisted photocatalyse. Due to the fact that within the literature are presented
various pathways for TCS degradation via UV/TiO2 photocatalysis, some data being contradictory,
research work aimed to propose a degradation mechanism supported by as many experimental data. TCS
degradation pathways confirmed by experimental results were: addition of hydroxyl radicals at TCS nonphenolic ring, proton extraction by hydroxyl radicals and direct interaction with photo generated
electrons.
wastewater treatment classical processes. TCS persistence and toxicity is asking for alternative treatment
methods such as TiO2 assisted photocatalyse. Due to the fact that within the literature are presented
various pathways for TCS degradation via UV/TiO2 photocatalysis, some data being contradictory,
research work aimed to propose a degradation mechanism supported by as many experimental data. TCS
degradation pathways confirmed by experimental results were: addition of hydroxyl radicals at TCS nonphenolic ring, proton extraction by hydroxyl radicals and direct interaction with photo generated
electrons.
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