Claude Lahitte scite author profile

The degradation of the azo dyes azobenzene, pmethyl red and methyl orange in aqueous solution at room temperature has been studied by an advanced electrochemical oxidation process (AEOPs) under potentialcontrolled electrolysis conditions, using a Pt anode and a carbon felt cathode. The electrochemical production of Fenton's reagent (H 2 O 2 , Fe 2+ ) allows a controlled in situ generation of hydroxyl radicals ( · OH) by simultaneous reduction of dioxygen and ferrous ions on the carbon felt electrode. In turn, hydroxyl radicals react with azo dyes, thus leading to their mineralization into CO 2 and H 2 O. The chemical composition of the azo dyes and their degradation products during electrolysis were monitored by high performance liquid chromatography (HPLC). The following degradation products were identified: hydroquinone, 1,4-benzoquinone, pyrocatechol, 4-nitrocatechol, 1,3,5-trihydroxynitrobenzene and p-nitrophenol. Degradation of the initial azo dyes was assessed by the measurement of the chemical oxygen demand (COD). Kinetic analysis of these data showed a pseudo-first order degradation reaction for all azo dyes. A pathway of degradation of azo dyes is proposed. Specifically, the degradation of dyes and intermediates proceeds by oxidation of azo bonds and aromatic ring by hydroxyl radicals. The results display the efficiency of the ElectroFenton process to degrade organic matter.

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Production of hydroxyl radicals by electrochemically assisted Fenton's reagent

Oturan

Oturan²,

Lahitte

et al. 2001

Journal of Electroanalytical Chemistry

240

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Récupération de métaux valorisables par voie électrochimique

Lahitte¹

2006

R.E.E.

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Claude Lahitte

Degradation of azo dyes in water by Electro-Fenton process

Production of hydroxyl radicals by electrochemically assisted Fenton's reagent

Récupération de métaux valorisables par voie électrochimique

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