Please use this identifier to cite or link to this item: https://physrep.ff.bg.ac.rs/handle/123456789/1343
Title: Degradation of tartrazine by Oxone® in the presence of cobalt based catalyst supported on pillared montmorillonite - Efficient technology even in extreme conditions
Authors: Janjić, Goran V
Marinović, Sanja R
Jadranin, Milka B
Ajduković, Marija J
Đorđević, Ivana S
Petković-Benazzouz, Marija 
Milutinović-Nikolić, Aleksandra D
Keywords: Catalytic degradation;DFT calculations;ECOSAR toxicological Profiles;Oxone®;Tartrazine dye
Issue Date: 15-Aug-2023
Journal: Environmental pollution (Barking, Essex : 1987)
Abstract: 
The catalytic degradation of hazardous organic contaminants in industrial wastewater is a promising technology. Reactions of tartrazine, the synthetic yellow azo dye, with Oxone® in the presence of catalyst in strong acidic condition (pH 2), were detected by using UV-Vis spectroscopy. In order to extend the applicability profile of Co-supported Al-pillared montmorillonite catalyst an investigation of Oxone® induced reactions were performed in extreme acidic environment. The products of the reactions were identified by liquid chromatography-mass spectrometry (LC-MS). Along with the catalytic decomposition of tartrazine induced by radical attack (confirmed as unique reaction path under neutral and alkaline conditions), the formation of tartrazine derivatives by reaction of nucleophilic addition was also detected. The presence of derivatives under acidic conditions slowed down the hydrolysis of tartrazine diazo bond in comparison to the reactions in neutral environment. Nevertheless, the reaction in acidic conditions (pH 2) is faster than the one conducted in alkaline conditions (pH 11). Theoretical calculations were used to complete and clarify the mechanisms of tartrazine derivatization and degradation, as well as to predict the UV-Vis spectra of compounds which could serve as predictors of certain reaction phases. ECOSAR program, used to estimate toxicological profile of compounds to aquatic animals, indicated an increase in the harmfulness of the compounds identified by LC-MS as degradation products from the reaction conducted for 240min. It could be concluded that an intensification of the process parameters (higher concentration of Oxone®, higher catalyst loading, increased reaction time, etc.) is needed in order to obtain only biodegradable products.
URI: https://physrep.ff.bg.ac.rs/handle/123456789/1343
ISSN: 02697491
DOI: 10.1016/j.envpol.2023.121863
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