Article ID Journal Published Year Pages File Type
5424888 Surface Science 2008 7 Pages PDF
Abstract
We perform DFT calculations to investigate the redox and formate mechanisms of water-gas-shift (WGS) reaction on Au/CeO2 catalysts. In the redox mechanism, we analyze all the key elementary steps and find that the OH cleavage is the key step. Three possible pathways of OH cleavage are calculated: (1) OHad″+∗′→Had′+Oad″; (2) Had′+OHad″→H2(g)+Oad″+∗′; and (3) OHad″+OHad″→2Oad″+H2(g) (∗′: the free adsorption sites on the oxides; ad′: adsorption on the metal; ad″: adsorption on the oxide, respectively). In the formate mechanism, we identify all the possible pathways for the formation and decomposition of surface formates in the WGS reaction. It is found that there is a shortcoming in the redox and formate mechanisms which is related to surface oxygen reproduction. Four possible pathways for producing surface oxygen are studied, and all the barriers of the four pathways are more than 1 eV. Our results suggest that the processes to reproduce surface oxygen in the reaction circle are not kinetically easy.
Related Topics
Physical Sciences and Engineering Chemistry Physical and Theoretical Chemistry
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