Industrial & Engineering Chemistry Research | 2019
CO Oxidation over Ce1–xPdxO2−δ Takes Place via Vacancy Hopping
Abstract
Mechanism of CO oxidation over ceria-based catalysts has been widely accepted to follow Mars–van Krevelen (MvK) mechanism involving the lattice oxygen exchange. Adsorption of CO over the metallic sites, lattice oxygen exchange, and replenishment of the support by stream oxygen are considered to be the surface processes taking place during the MvK mechanism. This study reveals an alternative MvK-type mechanism for the reaction taking place over metal ion substituted ceria-based reduced catalysts involving hopping of vacancies. The mechanism was proposed on the basis of adsorption energetics of CO and O2, probed with the help of density functional theory calculations. The computational analysis of different molecular systems (CeO2, CeO2−δ, and Ce1–xPdxO2−δ) under study showed that adsorption of O2 takes place over the reduced catalyst and nonsequential adsorption of CO and O2 takes place over Ce1–xPdxO2−δ in contrast to sequential adsorption of O2 followed by CO over CeO2−δ. Differences in the elementary su...