Pulsed field gradient NMR is able to monitor the displacement of guest mole
cules in porous materials without interfering with the microstructure and m
icrodynamics of the system under study. Using this technique, the propagati
on pattern of benzene, n-hexadecane. propylenecarbonate. ethylbenzene and d
iethyl ether in ordered mesoporous materials of type MCM-41 was studied.
The evaluation of the self-diffusion of benzene allows a quick and easy ass
essment of the transport resistance in the nanoporous material acting over
diffusion length scales of 1-10 mum. The fast diffusivities observed with b
enzene. ethylbenzene and diethyl ether in MCM-41 suggest that the transport
processes for these sorbate molecules are governed by gas or vapour phase
diffusion, which is reduced by interactions with the silica walls.
Measurements over shorter diffusion lengths ( less than or equal to 1 mum),
which were realised using n-hexadecane. showed that the self-diffusion in
the hexagonal channels of MCM-41 is anisotropic. The finite value of the se
lf-diffusion component perpendicular to the channel axis indicates the exis
tence of permeable defects like ''windows" in the silica matrix. (C) 2001 E
lsevier Science B.V. All rights reserved.