The effect of varying the calcination temperature from 773 to 1073 K was examined on catalysts prepared from Pd@CeO2, core–shell nanoparticles adsorbed on silane-functionalized γ-Al2O3 (Pd@CeO2/Si–Al2O3). Calcining to higher temperatures increased rates per gram catalyst for the methane-oxidation reaction significantly. The Pd@CeO2/Si–Al2O3 catalyst calcined to 773 K was unstable for methane-steam reforming (MSR) due to deep reduction of the catalyst while the catalyst calcined at 1073 K showed reasonable stable rates. CO adsorption, monitored using volumetric uptakes and FTIR, indicated adsorption on the Pd was suppressed following reduction at 673 K in H2 when the catalyst had been calcined at only 773 K, but not after 1073 K. Pulse-reactor measurements demonstrated that catalysts calcined at either 773 K or 1073 K were heavily reduced under MSR reaction conditions at 673 K but that the catalyst heated to 1073 K could be re-oxidized by H2O at this temperature, while the 773-K sample could not be. It is suggested that increasing calcination temperature modifies the structure of the ceria shell, which in turn changes the ceria redox properties.

High-temperature calcination improves the catalytic properties of alumina-supported Pd@ceria prepared by self assembly

CARGNELLO, MATTEO;FORNASIERO, Paolo;
2013-01-01

Abstract

The effect of varying the calcination temperature from 773 to 1073 K was examined on catalysts prepared from Pd@CeO2, core–shell nanoparticles adsorbed on silane-functionalized γ-Al2O3 (Pd@CeO2/Si–Al2O3). Calcining to higher temperatures increased rates per gram catalyst for the methane-oxidation reaction significantly. The Pd@CeO2/Si–Al2O3 catalyst calcined to 773 K was unstable for methane-steam reforming (MSR) due to deep reduction of the catalyst while the catalyst calcined at 1073 K showed reasonable stable rates. CO adsorption, monitored using volumetric uptakes and FTIR, indicated adsorption on the Pd was suppressed following reduction at 673 K in H2 when the catalyst had been calcined at only 773 K, but not after 1073 K. Pulse-reactor measurements demonstrated that catalysts calcined at either 773 K or 1073 K were heavily reduced under MSR reaction conditions at 673 K but that the catalyst heated to 1073 K could be re-oxidized by H2O at this temperature, while the 773-K sample could not be. It is suggested that increasing calcination temperature modifies the structure of the ceria shell, which in turn changes the ceria redox properties.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/2695413
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