期刊
JOURNAL OF CATALYSIS
卷 244, 期 2, 页码 137-152出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcat.2006.08.020
关键词
water-gas shift reaction; kinetics; mechanism; capture zone; spillover; TPD; XPS; GC; DRIFTS; Au/CeO2
Kinetic and mechanistic aspects of the low-temperature water-gas shift reaction on Au/CeO2 catalysts in idealized reaction atmosphere (1 kPa CO, 2 kPa H2O) and the effect of catalyst loading were investigated, comparing 8 catalysts with increasing Au loadings (0.8 - 12.6 wt% An). After conditioning, the relative amounts of Ce3+ and of ionic Au delta+ species, as well as the mean Au particle size, are independent of the Au loading. Under steady-state conditions, similar to 0.3 monolayers of surface formates are adsorbed on the support, which are identified as reaction intermediates from their decomposition kinetics. A mechanism is deduced and proposed involving (i) direct CO adsorption on An nanoparticles, as well as adsorption on an adjacent support area (capture zone) and subsequent reverse spillover on the An particles; (ii) formation and decomposition of surface formates at active sites, such as the interface between Au particles and CeO2 support (adlineation sites), by reaction Of COad and OHad and their subsequent decomposition to CO2 and H-2 and (iii) the spillover and reversible spillover of these species on the support and back. The surface formate adlayer on the support, which is in equilibrium with formates adsorbed on the active sites, acts as storage for reaction intermediates, kinetically detectable only in reaction transients. (c) 2006 Elsevier Inc. All rights reserved.
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