The EPR spectroscopy has been used to study the interaction of vanadiu
m pentoxide with H-ZSM-5 zeolite, supplied by ICITPR-Ploiesti, Romania
, occurring at the calcination of the mixture at temperatures from 100
to 1000 degrees C, in air, followed by evacuation at 20 degrees C, as
well as for those rehydrated at room temperature. The EPR method is a
lso used to follow the thermal stability of the investigated zeolite,
the framework alteration and the nature of VO2+ complexes formed durin
g solid phase reaction. At least two types VO2+ centres were identifie
d in H-ZSM-5 zeolite. One of them being ascribed to dehydrated VO2+ co
mplexes in cationic sites, with C-4r ligand field symmetry and the sec
ond one corresponding to the hydrated complex with a square bipyramida
l symmetry, D-4h. Increasing covalent character, for the in-plane sigm
a-bond and increasing ionic character for the out-of-plane pi bond, ha
ve been found on rehydrated samples. For a low content of oxide (less
than or equal to 5% wt V2O5) in a mixture the thermal stability, T = 1
070 degrees C, of the zeolite phase is not affected by the presence of
the reaction products.