CuO improved (Sn,Sb)O2 ceramic anodes for electrochemical advanced oxidation processes

Antimony‐doped tin oxide electrodes with CuO as sintering aid are presented as an economical alternative to metal‐based electrodes, intended for the electrooxidation process of emerging and recalcitrant organic contaminants in wastewaters. The CuO proportion has been optimized to obtain densified el...

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Bibliographic Details
Published inInternational journal of applied ceramic technology Vol. 16; no. 3; pp. 1274 - 1285
Main Authors Sánchez‐Rivera, María‐José, Giner‐Sanz, Juan José, Pérez‐Herranz, Valentín, Mestre, Sergio
Format Journal Article
LanguageEnglish
Published Malden Wiley Subscription Services, Inc 01.05.2019
Subjects
Anodes
Anodizing
Antimony
Contaminants
Copper
Copper oxides
electrical conductivity
Electrochemical analysis
Electrodes
Hydroxyl radicals
Norfloxacin
Oxidation
oxidation process
Oxygen evolution reactions
Parameter modification
Reaction mechanisms
Sintering
Tin
Tin dioxide
Tin oxides
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Summary:Antimony‐doped tin oxide electrodes with CuO as sintering aid are presented as an economical alternative to metal‐based electrodes, intended for the electrooxidation process of emerging and recalcitrant organic contaminants in wastewaters. The CuO proportion has been optimized to obtain densified electrodes with a mild thermal cycle (Tmax = 1200°C). One of the manufactured electrodes (97.8 mol.% of SnO2, 1.0 mol.% of Sb2O3, and 1.2 mol.% of CuO) was selected for electrochemical characterization from a physical and morphological analysis. The electrochemical behavior of the selected electrode showed that the addition of CuO as sintering aid widens the electrochemical window and increases the electrode “inactivity”, with respect to an (Sn, Sb)O2 electrode synthesized in the same conditions. In return, the (Sn,Sb,Cu)O2 electrode presents a significantly lower electrochemical rugosity factor. Moreover, the addition of CuO does not change the oxygen evolution reaction mechanism, but it modifies the kinetic parameters, leading to a larger accumulation of hydroxyl radicals. Consequently, the addition of CuO as sintering aid significantly improves the electrochemical properties of the electrode as an electrochemical advanced oxidation process anode with respect to the (Sn,Sb)O2 electrode, at the expense of worsening its electrochemical roughness factor. The results of the electrochemical characterization were confirmed by Norfloxacin degradation tests.
ISSN:1546-542X
1744-7402
DOI:10.1111/ijac.13149