The location of both Mg and V ions in V, Mg-containing AIPO(4)-5 samples an
d the influence of the magnesium ions on the nature, location and redox pro
perties of the vanadium species have been studied by combining several phys
ico-chemical characterisation techniques (TPR, XPS, NMR and ESR). While hom
ogeneously distributed V5+ ions in framework positions have been observed o
n calcined VAPO-5, extraframework V5+ species are mainly observed in calcin
ed VMgAPO-5 sample. XPS and P-31 MAS NMR indicate isomorphous incorporation
of magnesium ions in as-synthesised VMgAPO-5 sample. A partial extraction
of magnesium ions from lattice position is observed after calcination. Howe
ver, Mg2+ ions remain partially in framework positions as suggested by the
presence of Bronsted acid sites in the calcined VMgAPO-5 sample. The presen
ce of magnesium decreases the reducibility of V5+ ions, although the amount
of reduced vanadium ions in VMgAPO-5 was higher than those in VAPO-5. A co
rrelation between physico-chemical characteristics and catalytic behaviour
is also discussed. (C) 2000 Elsevier Science B.V. All rights reserved.