The influence of adsorbed molecules on Na-sites in NaY zeolite investigated by triple-quantum MAS NMR spectroscopy

The effect of hydration and benzene adsorption on resonance and the quadrupolar interaction in NaY zeolites is studied by triple-quantum MAS NMR spectroscopy. In the case of a C₆D₆/NaY system, the results show that with an increase in benzene loading, there is an up-field trend in isotropic chemical shift (δ_CS) and a decreasing second order quadrupolar effect (χ_s) for the site II sodium ions. It was found that adsorbed benzene molecules have a slight effect on the environment of sodium ions on site I. All the sodium sites in NaY are influenced upon hydration. The up-field shift of the sodium δ_CS reflects the effect of coordination of oxygen atoms on sodium cations due to hydration. The magnitude of χ_s for hydrated sodium sites increases and then falls off with water loading. The increase in χ_s is due to the initial hydration among SI-, SI′- and SII-sodium ions, while the decrease is the result of approaching the final stage of saturated hydration.