CO-TPR-DRIFTS-MS in situ study of CuO/Ce1- ^sub x^ Tb ^sub x^ O2- ^sub y^ (x =0, 0.2 and 0.5) catalysts: Support effects on redox properties and CO oxidation catalysis

CO-TPR-DRIFTS-MS in situ study of CuO/Ce1- ^sub x^ Tb ^sub x^ O2- ^sub y^ (x =0, 0.2 and 0.5) catalysts: Support effects on redox properties and CO oxidation catalysis

Reasons for the discrepancies between redox and catalytic properties on the basis of classical CO temperature-programmed reduction tests starting at room temperature are explored in Ce1- x Tb x O2- y -supported copper catalysts by in situ infrared. Catalysts of copper oxide supported on CeO2 and Ce1...

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Bibliographic Details
Published in:Journal of catalysis Vol. 268; no. 2; p. 367
Main Authors: Hornés, Aitor, Bera, Parthasarathi, Cámara, Antonio López, Gamarra, Daniel, Munuera, Guillermo, Martínez-Arias, Arturo
Format: Journal Article
Language:English
Published: San Diego Elsevier BV 10-12-2009
Subjects:
Carbon dioxide
Catalysts
Spectrum analysis
Online Access:Get full text
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Summary:Reasons for the discrepancies between redox and catalytic properties on the basis of classical CO temperature-programmed reduction tests starting at room temperature are explored in Ce1- x Tb x O2- y -supported copper catalysts by in situ infrared. Catalysts of copper oxide supported on CeO2 and Ce1- x Tb x O2- y have been studied by temperature-programmed reduction employing CO as a reductant (CO-TPR) using a diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) cell as well as conventional tubular reactors in order to get insights into redox changes occurring in the course of interaction of the systems with CO. CO-TPR results collected in the classical way, i.e. starting the temperature ramp after reactant gas equilibration at room temperature, suggest that the reduction of the copper species occurs at temperatures which decrease with the terbium content of the support. However, such result contrasts with CO oxidation activity of the systems under CO-PROX condition which follows just the opposite trend. DRIFTS results and analysis of low temperature redox processes, typically disregarded during recording of classical TPR tests, show that catalytic activity can be correlated to the magnitude of reduction achieved already at room temperature, which is related to reduction of interfacial copper oxide species. [PUBLICATION ABSTRACT]
ISSN:0021-9517
1090-2694
DOI:10.1016/j.jcat.2009.10.007