F. Boccuzzi et al., Au/TiO2 nanosized samples: A catalytic, TEM, and FTIR study of the effect of calcination temperature on the CO oxidation, J CATALYSIS, 202(2), 2001, pp. 256-267
Three Au/TiO2 catalysts, with the same Au loading and with different partic
le sizes, were prepared by the deposition-precipitation method followed by
calcination at three different temperatures, 473, 573, and 873 K. The mean
diameters of Au particles were 2.4,2.5, and 10.6 nm, respectively. On all t
he samples the CO adsorption and different CO-O-2 interactions were examine
d by FTIR at 90 K and at room temperature. The higher catalytic activity on
CO oxidation found for the samples calcined at 473 and 573 K is related to
the higher concentration of step sites over the Au surfaces and to a highe
r concentration of step sites at the borderline with the support. At 90 K,
CO and molecular oxygen are competitively adsorbed on step sites. By CO pre
adsorption on hydrated catalysts, the reaction with O-2 gives CO2 already a
t 90 K, while by oxygen preadsorption the reaction is completely inhibited,
unless moisture is present in the gas phase. An effect of CO coadsorption
has been evidenced on water dissociation on gold sites or at the interface
with the support, producing atomic hydrogen. The hydrogen reacts with the o
xygen, producing a reactive species, quickly dissociated in nascent oxygen
and OH groups. Moreover, the reaction with O-18(2) at 90 K in the presence
of moisture produces only (COO)-O-16-O-18, giving evidence that there is no
direct participation of oxygens of the support and of the water in the rea
ction. At room temperature, other reaction channels become operative, invol
ving oxygen species activated on the support, as shown by the extensive exc
hange reactions occurring with the support oxygen. (C) 2001 Academic Press.