Role of P-containing species in phosphated CeO2 in the deterioration of its oxygen storage and release properties
Date
2006Author
López Granados, M.Galisteo, F. C.
Lambrou, Panayiota S.
Mariscal, R.
Sanz, J.
Sobrados, I.
Fierro, José Luis García

Source
Journal of CatalysisVolume
239Issue
2Pages
410-421Google Scholar check
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The chemical nature of P-containing species incorporated on the surface and within the subsurface regions of CeO2 solid and their effects on the deterioration of the oxygen storage and release properties of phosphated ceria have been investigated. The samples were characterised by X-ray diffraction, X-ray photoelectron, Raman, and 31P nuclear magnetic resonance spectroscopies Fourier transform infrared pyridine chemisorption, N2 physical adsorption isotherms, oxygen storage capacity, and 18O2 temperature-programmed isotopic exchange measurements. In the samples with P/Ce ratios 0.03, crystals of monazite are formed. Theoretical estimations indicate that about 5.5 P atoms/nm2 are required to fully cover the CeO2 surface. This is equivalent to a P/Ce ratio of 0.02 in the ceria solid studied in the present work (BET area = 12.8 m2/g). The experimental P/Ce ratio needed for complete surface saturation is higher (close to 0.03) very likely because part of P is incorporated into the subsurface region of ceria. Monazite also deteriorates the oxygen storage and release properties of ceria because it is a very stable Ce(III) phase. Once CePO4 crystals are formed, further incorporation of P does not result in a deeper deterioration of the oxygen storage and release properties of ceria. Larger monazite crystals are then formed on the surface at the expense of isolated orthophosphate species, leaving part of the ceria surface uncovered and thus available for surface and bulk oxygen exchange. © 2006 Elsevier Inc. All rights reserved.