Fha. Abdalla et al., SOLID-SOLID INTERACTIONS IN PURE AND LI2O-DOPED V2O5 AL2O3 SYSTEM, Bulletin des Societes chimiques belges, 103(11), 1994, pp. 665-672
The effects of calcination temperature (500-1000-degrees-C) and lithiu
m oxide-doping (4 and 10 mole %) on solid-solid interactions between A
l2O3 and V2O5 were investigated using DTA, TG and their derivatives to
gether with XRD techniques. The results obtained revealed that no soli
d-solid interaction between vanadium and aluminium oxides occurred at
500-degrees-C. These oxides interacted in part, at 650-degrees-C to pr
oduce AlVO4, the completion of this reaction requires a prolonged heat
ing at this temperature. Li2O-doping much enhanced the interaction yie
lding AlV4, the presence of 4 mole % was found sufficient to stimulate
the complete conversion of V2O5 into aluminium vanadate. Aluminium va
nadate produced in the case of pure mixed solids decomposed entirely b
y heating at 750-degrees-C giving a well crystallized V2O5 and an amor
phous alumina. On the other hand, lithium oxide-doping much increased
the thermal stability of AlVO4 at 750-degrees-C and led also to the fo
rmation of AlVO3 and LiV10O25 phases. The heating of pure mixed oxides
in air at 1000-degrees-C resulted in the formation of alpha-alumina (
corrundum) together with V2O5. This treatment, in the case of doped mi
xed solids, effected the formation of alpha-Al2O3, V2O5 and LiV10O25 p
hases. The last compound was formed at 750-degrees-C and remained stab
le by heating at 1000-degrees-C. The promotion effect of Li2O in AlVO4
formation was tentatively attributed to dissolution of a small portio
n of Li2O in V2O5 lattice with subsequent increase in the mobility of
V+5 ions.