Support Shape Effect in Metal Oxide Catalysis: Ceria-Nanoshape-Supported Vanadia Catalysts for Oxidative Dehydrogenation of Isobutane
journal contributionposted on 16.12.2015, 21:29 authored by Zili Wu, Viviane Schwartz, Meijun Li, Adam J. Rondinone, Steven H. Overbury
The support effect has long been an intriguing topic in catalysis research. With the advancement of nanomaterial synthesis, the availability of faceted oxide nanocrystals provides the opportunity to gain unprecedented insights into the support effect by employing these well-structured nanocrystals. In this Letter, we show by utilizing ceria nanoshapes as supports for vanadium oxide that the shape of the support poses a profound effect on the catalytic performance of metal oxide catalysts. Specifically, the activation energy of VOx/CeO2 catalysts in oxidative dehydrogenation of isobutane was found to be dependent on the shape of ceria support, rods < octahedra, closely related to the surface oxygen vacancy formation energy and the numbe of defects of the two ceria supports with different crystallographic surface planes.
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surface planessupport effectMetal Oxide Catalysisceria supportsupport Shape Effectcatalysis researchsurface oxygen vacancy formation energynanomaterial synthesisoxidative dehydrogenationOxidative Dehydrogenationmetal oxide catalystsceria nanoshapesvanadium oxidefaceted oxide nanocrystalsactivation energyIsobutaneThe support effect