Transition of surface phase of cobalt oxide during CO oxidation

Yu Tang; Lingjuan Ma; Jian Dou; Christopher M Andolina; Yuting Li; Hongbin Ma; Stephen D House; Xiaoyan Zhang; Judith Yang; Franklin Feng Tao

doi:10.1039/c7cp07407g

Transition of surface phase of cobalt oxide during CO oxidation

Phys Chem Chem Phys. 2018 Feb 28;20(9):6440-6449. doi: 10.1039/c7cp07407g.

Authors

Yu Tang¹, Lingjuan Ma, Jian Dou, Christopher M Andolina, Yuting Li, Hongbin Ma, Stephen D House, Xiaoyan Zhang, Judith Yang, Franklin Feng Tao

Affiliation

¹ Department of Chemical and Petroleum Engineering and Department of Chemistry, University of Kansas, Lawrence, KS 66045, USA. franklin.feng.tao@ku.edu.

PMID: 29445805
DOI: 10.1039/c7cp07407g

Abstract

In situ/operando studies of a heterogeneous catalyst are particularly valuable for achieving a fundamental understanding of catalytic mechanisms at a molecular level by establishing a correlation between the observed catalytic performance and the corresponding surface chemistry during catalysis. Herein, CO oxidation on cobalt oxides was studied via ambient pressure X-ray photoelectron spectroscopy (AP-XPS). During CO oxidation on CoO in the temperature range of 140-180 °C, the active surface phase of CoO progressively transforms to Co₃O₄. Kinetic studies of CO oxidation on the surface phase CoO at 80-120 °C and on the formed Co₃O₄ at 160-220 °C show that CoO and Co₃O₄ exhibit different activation barriers: 49.3 kJ mol^-1 for CoO and 36.9 kJ mol^-1 for Co₃O₄. This study demonstrates the transition of the active surface phase of a transition metal oxide-based catalyst under catalytic conditions with no change in the bulk phase of the catalyst.