Mj. Capitan et al., SM2O3 AL2O3 CATALYSTS FOR METHANE COUPLING - INFLUENCE OF THE STRUCTURE OF SURFACE SM-AL-O PHASES ON THE REACTIVITY/, Journal of physical chemistry, 97(36), 1993, pp. 9233-9240
The oxidative dimerization of methane has been studied over samarium o
xide supported on alumina as a function of the samarium loading and th
e calcination temperature. The structure of the supported phase has be
en determined by EXAFS. The EXAFS results state that all the samarium
ions are present at the catalyst surface for Sm2O3 contents lower than
20% w/w. At the higher loadings tried, crystalline phases containing
Sm appear, their structure depending upon the calcination temperature.
The activity/selectivity toward C2 per exposed samarium ion is higher
for samples containing less than a monolayer of samarium. In this cas
e, the coordination polyhedron around samarium ions points to a nonord
ered structure that blocks highly reactive sites on the alumina surfac
e. On increasing the samarium loading, two phases develop depending up
on the calcination temperature; at low temperatures an oxide-like stru
cture grows over the alumina support while at higher temperatures a pe
rovskite-like phase evolves. For the same samarium loading, the oxide-
like structure shows better selectivity toward C2 than the SmAlO3 phas
e.