Diffusion of ammonia in silicalite studied by QENS and PFG NMR

Ammonia diffusivities in silicalite have been studied by quasi-elastic neut ron scattering (QENS) and pulsed-field gradient (PFG) NMR for temperatures between 200 and 500 K and loadings from 1.5 up to 4.3 molecules per unit ce ll. The diffusion coefficients obtained by both techniques increase with in creasing ammonia concentration. The QENS diffusivities refer to only a cert ain fraction of molecules, because during the time scale of the measurement the other part of molecules is essentially immobile, in interaction with s ilanol groups. During the much larger time scale of the PFG NMR experiment, ammonia molecules assume both states of mobility, leading to an average di ffusivity which is smaller than the diffusivity of the mobile molecules rec orded by QENS. The difference between the diffusivities derived from both t echniques decreases when the proportion of immobile molecules is taken into account. The residence time of ammonia in interaction with silanol groups is about two orders of magnitude longer than with oxygen atoms. (C) 1998 El sevier Science B.V. All rights reserved.