The dynamic behavior of dilute metallic alloy PdxAu1−x/SiO2 raspberry colloid templated catalysts under CO oxidation

Dilute palladium-in-gold alloys have potential as efficient oxidation catalysts; controlling the Pd surface distribution is critical. Here, the activity for CO oxidation catalyzed by robust dilute Pd-in-Au nanoparticles supported on raspberry-colloid-templated (RCT) silica depends on the pretreatmen...

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Veröffentlicht in:	Catalysis science & technology 2021-06, Vol.11 (12), p.4072-4082
Hauptverfasser:	Filie, Amanda, Shirman, Tanya, Aizenberg, Michael, Aizenberg, Joanna, Friend, Cynthia M, Madix, Robert J
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Carbon monoxide Catalysts Dilution Gold Gold base alloys Nanoparticles Oxidation Palladium Silicon dioxide
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creator	Filie, Amanda Shirman, Tanya Aizenberg, Michael Aizenberg, Joanna Friend, Cynthia M Madix, Robert J
description	Dilute palladium-in-gold alloys have potential as efficient oxidation catalysts; controlling the Pd surface distribution is critical. Here, the activity for CO oxidation catalyzed by robust dilute Pd-in-Au nanoparticles supported on raspberry-colloid-templated (RCT) silica depends on the pretreatment and gas environment. The activities of oxygen-pretreated catalysts are different in light-off studies versus after long-term use. Transient increases in activity are also induced by flowing CO/He at 553 K. Altogether, these results indicate changes in Pd distribution at the surface induced by reactive gases and that light-off studies alone are not adequate for evaluation of alloy catalyst performance. Kinetic studies show evidence of both isolated and multiple Pd atoms. A dual-site mechanism is operative over Pd0.02Au0.98 RCT-SiO2, whereas a single-site mechanism governs reaction over Pd0.10Au0.90 RCT-SiO2. The distinct mechanisms suggest that tuning the ratio of isolated to clustered Pd sites is possible, underscoring the importance of characterization under reaction conditions.
doi_str_mv	10.1039/d1cy00469g
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Here, the activity for CO oxidation catalyzed by robust dilute Pd-in-Au nanoparticles supported on raspberry-colloid-templated (RCT) silica depends on the pretreatment and gas environment. The activities of oxygen-pretreated catalysts are different in light-off studies versus after long-term use. Transient increases in activity are also induced by flowing CO/He at 553 K. Altogether, these results indicate changes in Pd distribution at the surface induced by reactive gases and that light-off studies alone are not adequate for evaluation of alloy catalyst performance. Kinetic studies show evidence of both isolated and multiple Pd atoms. A dual-site mechanism is operative over Pd0.02Au0.98 RCT-SiO2, whereas a single-site mechanism governs reaction over Pd0.10Au0.90 RCT-SiO2. 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subjects	Alloys Carbon monoxide Catalysts Dilution Gold Gold base alloys Nanoparticles Oxidation Palladium Silicon dioxide
title	The dynamic behavior of dilute metallic alloy PdxAu1−x/SiO2 raspberry colloid templated catalysts under CO oxidation
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