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Porous unsupported CuO nanoplates for efficient photothermal CO oxidation

Rong Liang, Xuehua Chen, Chao Qin, Zhizhen Ye, Liping Zhu, Zirui Lou

2022Nanotechnology17 citationsDOI

Abstract

Abstract It is a significant issue for environmental protection and industrial production to eliminate CO, a gas harmful to life and some important reaction sites. Real environmental conditions require catalytic CO oxidation to occur at relatively low temperature. Nowadays, photothermal catalysis has been exploited as a new way to achieve CO elimination, different from thermal catalysis. CuO, as cheap and abundant substitute for precious metals, is considered to have potential in photothermal catalysis. Oxygen vacancies (O V ) and lattice oxygen (O L ) activity are considered extremely crucial for oxide catalysts in CO oxidation, according to Mars−van Krevelen mechanism. Herein, porous CuO nanoplates with adjustable O V and O L activity were prepared by a facile method via controlling the morphology and phase composition of precursors. The light-off temperature (50% conversion) of the best sample obtained under the optimal conditions was ∼110 °C and an almost complete conversion was reached at ∼150 °C. It also achieved nearly 70% conversion under 6 standard Suns (6 kW cm −2 irradiation) and could work in infrared radiation (IR) regions, which could be attributed to the photo-induced thermal effect and activation effect. The simple synthesis and characterization provide a good example for the future photothermal catalysis.

Topics & Concepts

Photothermal therapyCatalysisMaterials scienceOxideOxygenChemical engineeringPhotothermal effectPorosityAdsorptionThermal treatmentNanotechnologyChemistryOrganic chemistryMetallurgyComposite materialEngineeringCopper-based nanomaterials and applicationsZnO doping and propertiesCatalytic Processes in Materials Science
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