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The synergic persulfate-sodium dodecyl sulfate effect during the electro-oxidation of caffeine using active and non-active anodes.
Escalona-Durán, Florymar; Ribeiro da Silva, Djalma; Martínez-Huitle, Carlos A; Villegas-Guzman, Paola.
Affiliation
  • Escalona-Durán F; Institute of Chemistry, Environmental and Applied Electrochemistry Laboratory, Federal University of Rio Grande do Norte, Lagoa Nova, CEP, 59078-970, Natal, RN, Brazil.
  • Ribeiro da Silva D; Institute of Chemistry, Environmental and Applied Electrochemistry Laboratory, Federal University of Rio Grande do Norte, Lagoa Nova, CEP, 59078-970, Natal, RN, Brazil.
  • Martínez-Huitle CA; Institute of Chemistry, Environmental and Applied Electrochemistry Laboratory, Federal University of Rio Grande do Norte, Lagoa Nova, CEP, 59078-970, Natal, RN, Brazil; National Institute for Alternative Technologies of Detection, Toxicological Evaluation and Removal of Micropollutants and Radioacti
  • Villegas-Guzman P; Institute of Chemistry, Environmental and Applied Electrochemistry Laboratory, Federal University of Rio Grande do Norte, Lagoa Nova, CEP, 59078-970, Natal, RN, Brazil; Centro de Investigaciones UNINAVARRA - CINA, Fundación Universitaria Navarra - UNINAVARRA, Calle 10 No. 6 - 41. Primer Piso, Neiva,
Chemosphere ; 253: 126599, 2020 Aug.
Article in En | MEDLINE | ID: mdl-32278188
It has previously been established during the elimination of organic matter that the addition of sodium dodecyl sulfate in solution is an important condition in the electrochemical oxidation approach that allows to increase the production of persulfate, enhancing the efficacy of the treatment. This outcome was observed when using the anodic oxidation with boron doped diamond (BDD), the extra production of persulfate was achieved after the SDS-sulfate released in solution and it reacts with hydroxyl radicals electrogenerated at BDD surface. However, this effect was not already tested by using active anodes. For this reason, the effect of sodium dodecyl sulfate (SDS) during the electrochemical treatment of caffeine was investigated by comparing non-active and active anodes performances. A significant decrease on the oxidation efficiency of caffeine was observed by using Ti/IrO2-Ta2O5 anode at high current density when SDS was added to the solution. Conversely, at BDD anode, the presence of SDS enhanced the degradation efficiency, depending on the applied current density. This behavior is mainly due to the degradation of SDS molecules, which allows to increase the amount of sulfate in solution, promoting the production of persulfate via the mechanism involving hydroxyl radicals when BDD is used. Meanwhile, no oxidation improvements were observed when Ti/IrO2-Ta2O5 anode was employed, limiting the caffeine oxidation. Results clearly showed that the surfactant concentration had little influence on the degradation efficiency, but this result is satisfactory for the BDD system, since it demonstrates that effluents with complex matrices containing surfactants could be effectively degraded using the electrooxidation technique. Degradation mechanisms were explained by electrochemical measurements (polarization curves) as well as the kinetic analysis. Costs and energy consumption were also evaluated.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Sodium Dodecyl Sulfate / Water Pollutants, Chemical / Caffeine / Electrodes Language: En Journal: Chemosphere Year: 2020 Document type: Article Affiliation country: Brazil Country of publication: United kingdom

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Sodium Dodecyl Sulfate / Water Pollutants, Chemical / Caffeine / Electrodes Language: En Journal: Chemosphere Year: 2020 Document type: Article Affiliation country: Brazil Country of publication: United kingdom