Simulated Solar light phototransformation of the organophosphorus azinphos methyl at the surface of clays and goethite. - Archive ouverte HAL
Article Dans Une Revue Environmental Science and Technology Année : 2013

Simulated Solar light phototransformation of the organophosphorus azinphos methyl at the surface of clays and goethite.

Mohamed Sarakha
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Résumé

The photochemical behavior of the pesticide azinphos methyl at the surface of clays (kaolinite, bentonite) and goethite was studied using Suntest setup (λ > 300 nm). The quantum yield on the clays was found to be roughly three times lower than that in aqueous solution. However, the photochemical efficiency was much higher at the surface of goethite owing to its photocatalytic activity through the hydroxyl radical production. The added humic substances on kaolonite show an inhibition of azinphos methyl degradation while the incorporation of iron(III) aquacomplexes leads to an important increase of the disappearance together with the formation of iron(II). Hydroxyl radical species were found to be formed either by excitation of goethite or clays. The goethite support acts as a more efficient catalyst for the formation of these reactive oxygen species. The photodecomposition reactions observed were (i) hydrolysis process leading to the formation of benzotriazone and the oxidation of the P = S bond giving rise to the formation of the oxon derivative, and (ii) homolytic cleavage of the N−C and C−S bonds of the organophosphorus bridge leading to the formation of dimers that appear to be specific to the irradiation at the surface of solid supports since they were not observed when the irradiation was performed in aqueous media: a statement that is related to the presence of aggregates at the surface of solid supports.
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Dates et versions

hal-00789746 , version 1 (18-02-2013)

Identifiants

  • HAL Id : hal-00789746 , version 1

Citer

Matthieu Ménager, Mohamed Sarakha. Simulated Solar light phototransformation of the organophosphorus azinphos methyl at the surface of clays and goethite.. Environmental Science and Technology, 2013, 47, pp.765-772. ⟨hal-00789746⟩
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