The partial oxidation of methane was studied on silica-supported alkali met
al molybdate catalysts in a fixed-bed continuous-flow reactor at 860-923 K
using O-2 as oxidant. The catalysts were characterized by Raman and XP spec
troscopy. It was found that the surface structure and composition of molybd
ates deposited by impregnation depend on the cation, From lithium to potass
ium monomolybdate was formed with the original structure, Rb2MoO4/SiO2 cont
ains distorted [MoO4] tetrahedra, and in the case of cesium dimolybdate was
obtained, The main products of the oxidation reaction were formaldehyde, e
thane, CO, and CO2, The activity of the catalysts and the product distribut
ion were markedly influenced by the structure of the catalysts. The highest
catalytic activity was measured on Rb2MoO4/SiO2. Formaldehyde in a larger
quantity was produced on MoO3/SiO2, but when the rate was related to the am
ount of surface molybdenum atoms Rb2MoO4/SiO2 had the highest activity. A p
ossible mechanism for the oxidation of methane is discussed. (C) 2001 Acade
mic Press.