A Contribution on the Elucidation of the Electrooxidation Mechanism of Gentisaldehyde on a Glassy Carbon Electrode

The electrochemical behavior of gentisaldehyde (2,5-dihydroxibenzaldehyde) on a glassy carbon electrode is studied by linear-sweep cyclic voltammetry finding one to three oxidation peaks, depending on both the number of cycles recorded and the pH, and one reduction peak. The oxidation product was th...

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Bibliographic Details
Published in:Journal of the Electrochemical Society 2016-01, Vol.163 (14), p.H1127-H1131
Main Authors: Brito, R. Estévez, Mellado, J. M. Rodríguez, Palma, A., Montoya, M. Ruiz, Rodríguez-Amaro, R., Mayén, M.
Format: Article
Language:English
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Summary:The electrochemical behavior of gentisaldehyde (2,5-dihydroxibenzaldehyde) on a glassy carbon electrode is studied by linear-sweep cyclic voltammetry finding one to three oxidation peaks, depending on both the number of cycles recorded and the pH, and one reduction peak. The oxidation product was the formyl-p-benzoquinone, generated by the oxidation of the biphenolic ring, and not the 2,5-dihydroxybenzoic acid (gentisic acid) that could be formed by oxidation of the aldehyde group. The mechanism proposed at pH < pK1 (8.42) from the analysis of cyclic and convoluted voltammograms involves the loss of an H+ ion from one hydroxyl group, a first quasi-reversible electron transfer to give a radical, and the release of a proton in a third step (the r.d.s.) followed by the second electron transfer to give the product. At pK1 < pH < pK2, the electroactive species is the anion that losses an ion H+ to give the dianion, the process being of the CEE type (chemical-electrochemical-electrochemical steps). At pH > pK2 (10.93) the process becomes of the EE type (electrochemical-electrochemical steps), no H+ ions being involved. Radicals species found justify the antioxidant capacity of gentisaldehyde.
ISSN:0013-4651
1945-7111
DOI:10.1149/2.0491614jes