CO Oxidation on Au/TiO2: Condition-Dependent Active Sites and Mechanistic Pathways

August 24, 2016

Journal Article

CO Oxidation on Au/TiO2: Condition-Dependent Active Sites and Mechanistic Pathways

Abstract

We present results of ab initio electronic structure and molecular dynamics simulations (AIMD), as well as microkinetic modeling of CO oxidation catalyzed by TiO2 supported Au nanocatalysts. A coverage-dependent microkinetic analysis, based on energetics obtained with density functional methods, shows that the dominant kinetic pathway, activated oxygen species, and catalytic active sites are all strongly depended on both temperature and oxygen partial pressure. A dynamic single atom catalytic (DSAC) mechanism for CO oxidation is proposed to be the dominant (but not the exclusive) pathway for this reaction under oxidative conditions below T

Revised: April 23, 2020 | Published: August 24, 2016

Citation

Wang Y., D. Cantu Cantu, M. Lee, J. Li, V.A. Glezakou, and R.J. Rousseau. 2016. CO Oxidation on Au/TiO2: Condition-Dependent Active Sites and Mechanistic Pathways. Journal of the American Chemical Society 138, no. 33:10467-10476. PNNL-SA-117883. doi:10.1021/jacs.6b04187