Xe-129 Nuclear magnetic resonance (NMR) studies of H-Ga-MFI samples ha
ving a range of lattice and extralattice gallium contents have shown t
hat the Xe-129 NMR technique can be used as an estimate of the lattice
gallium content and the extent of charge on the extralattice gallium
species. The xenon chemical shift extrapolated to zero xenon coverage
can be used to estimate the lattice gallium content and the extent of
charge on the extralattice gallium species. The xenon chemical shift e
xtrapolated to zero xenon coverage is linearly dependent on the lattic
e gallium content as determined by Si-29 magic-angle spinning (MAS) NM
R spectroscopy. Samples containing high concentrations of extralattice
gallium showed a marked upward curvature in plots of xenon chemical s
hift versus xenon density at low xenon density. Steaming of the zeolit
es reduces the lattice gallium content and the upward curvature in the
xenon chemical shift plots, consistent with hydrolysis of extralattic
e Ga3+ to uncharged oxide or oxyhydroxide gallium species within the z
eolite pores.