Crystalline ZnO Photocatalysts Prepared at Ambient Temperature: Influence of Morphology on p-Nitrophenol Degradation in Water

Since the Industrial Revolution, technological advances have generated enormous emissions of various pollutants affecting all ecosystems. The detection and degradation of pollutants has therefore become a critical issue. More than 59 different remediation technologies have already been developed, su...

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Bibliographic Details
Published in:Catalysts 2021-10, Vol.11 (10), p.1182
Main Authors: Mahy, Julien G., Lejeune, Louise, Haynes, Tommy, Body, Nathalie, De Kreijger, Simon, Elias, Benjamin, Marcilli, Raphael Henrique Marques, Fustin, Charles-André, Hermans, Sophie
Format: Article
Language:English
Subjects:
Ambient temperature
aqueous sol-gel process
Catalysts
Catalytic activity
Chemical contaminants
Chemical engineering
Chemical reactions
Crystal structure
Crystallinity
Design of experiments
Engineering, computing & technology
Ingénierie chimique
Ingénierie, informatique & technologie
Materials science & engineering
Metal oxides
Morphology
Nanorods
Nanospheres
Nitrophenol
Oxidation
Parameters
Photocatalysis
Photocatalysts
Photodegradation
pollutant degradation
Pollutants
Remediation
Science des matériaux & ingénierie
Sol-gel processes
Spectrum analysis
Titanium dioxide
Wastewater treatment
Wurtzite
Zinc oxide
ZnO
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Summary:Since the Industrial Revolution, technological advances have generated enormous emissions of various pollutants affecting all ecosystems. The detection and degradation of pollutants has therefore become a critical issue. More than 59 different remediation technologies have already been developed, such as biological remediation, and physicochemical and electrochemical methods. Among these techniques, advanced oxidation processes (AOPs) have been popularized in the treatment of wastewater. The use of ZnO as a photocatalyst for water remediation has been developing fast in recent years. In this work, the goals are to produce ZnO photocatalysts with different morphologies, by using a green sol-gel process, and to study both the influence of the synthesis parameters on the resulting morphology, and the influence of these different morphologies on the photocatalytic activity, for the degradation of an organic pollutant in water. Multiple morphologies were produced (nanotubes, nanorods, nanospheres), with the same crystalline phase (wurtzite). The most important parameter controlling the shape and size was found to be pH. The photoactivity study on a model of pollutant degradation shows that the resulting activity is mainly governed by the specific surface area of the material. A comparison with a commercial TiO2 photocatalyst (Evonik P25) showed that the best ZnO produced with this green process can reach similar photoactivity without a calcination step.
ISSN:2073-4344
2073-4344
DOI:10.3390/catal11101182