Abstract
This work investigates the effect of changing the vanadia/support interface on the redox properties of the material for the oxidative dehydrogenation reaction of small alkanes. In particular, ternary V2O5/CeO2/SiO2 catalysts are compared to vanadia on ceria and CeVO4 catalysts. Modifications in the CeO2 phase by the effect of the silica support and the creation of new V–Ce–Si interfaces induce substantial changes in the phases and behavior of vanadium species as well as CeO2, thus modifying the reaction mechanism. Powerful characterization techniques, XRD, in situ XANES, and Raman, as well as studies of ethane oxidative dehydrogenation catalytic activity provide a solid description of the phenomena associated with the different interfaces on a molecular level. Bulk CeO2 entities react with the vanadium species, leading to the formation of vanadate inhibiting the redox pair of V. These centers are very active but selective to ethane total oxidation. However, smaller ceria domains achieved by dispersion on ...
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