Semi-permanent hair dyes degradation at W/WO3 photoanode under controlled current density assisted by visible light

Q Chemistry Journal of Advanced Oxidation Technologies Pub Date : 2017-01-01 DOI:10.1515/jaots-2016-0168
Luciano Evangelista Fraga, T. T. Guaraldo, Bárbara Camila de Araújo Souza, M. Zanoni
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引用次数: 3

Abstract

Abstract The indiscriminate use of hair dyes has attracted great deal of attention due to its toxicological and mutagenic aspects demonstrated by some of these substances. Thus, the effluent from beauty salons and domestic sewages if not properly treated can reach water treatment plants and water sources, enhancing human health and environmental protection concern. This work explores the application of photoelectrocatalytic process on Basic Brown 16 and Basic Blue 99 degradation as model of basic hair dyes pollutants. W/WO3 electrode was used as photoanode under optimized conditions of 0.10 mol L–1 Na2SO4 as electrolytic solution, pH 2.0, under 1.25 mA cm–2 of controlled current density application and visible light irradiation. The process leads to complete color removal, and up to 59 % and 44 % mineralization of Basic Brown 16 and Basic Blue 99, respectively. The use of W/WO3 photoanodes under visible irradiation could assist on development of wastewater treatment technology.
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可见光辅助下可控电流密度W/WO3光阳极下半永久性染发剂的降解
摘要染发剂的滥用引起了人们的广泛关注,因为染发剂中的一些物质具有毒理学和诱变的特点。因此,美容院的污水和生活污水如果处理不当,可能会到达水处理厂和水源,增加对人类健康和环境保护的关注。本研究探讨了光电催化降解碱性棕16和碱性蓝99作为碱性染发剂污染物模型的应用。采用W/WO3电极作为光阳极,电解液为0.10 mol L-1 Na2SO4, pH为2.0,控制电流密度1.25 mA cm-2,可见光照射。该工艺可完全脱色,碱性棕16和碱性蓝99的矿化率分别高达59%和44%。可见光照射下W/WO3光阳极的使用有助于污水处理技术的发展。
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来源期刊
Journal of Advanced Oxidation Technologies
Journal of Advanced Oxidation Technologies 化学-物理化学
CiteScore
0.88
自引率
0.00%
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0
审稿时长
1 months
期刊介绍: The Journal of advanced oxidation technologies (AOTs) has been providing an international forum that accepts papers describing basic research and practical applications of these technologies. The Journal has been publishing articles in the form of critical reviews and research papers focused on the science and engineering of AOTs for water, air and soil treatment. Due to the enormous progress in the applications of various chemical and bio-oxidation and reduction processes, the scope of the Journal is now expanded to include submission in these areas so that high quality submission from industry would also be considered for publication. Specifically, the Journal is soliciting submission in the following areas (alphabetical order): -Advanced Oxidation Nanotechnologies -Bio-Oxidation and Reduction Processes -Catalytic Oxidation -Chemical Oxidation and Reduction Processes -Electrochemical Oxidation -Electrohydraulic Discharge, Cavitation & Sonolysis -Electron Beam & Gamma Irradiation -New Photocatalytic Materials and processes -Non-Thermal Plasma -Ozone-based AOTs -Photochemical Degradation Processes -Sub- and Supercritical Water Oxidation -TiO2 Photocatalytic Redox Processes -UV- and Solar Light-based AOTs -Water-Energy (and Food) Nexus of AOTs
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