Observation of Diffusion in Xenon Gas by NMR

## Abstract We report initial NMR studies of (i) xenon gas diffusion in model heterogeneous porous media and (ii) continuous flow laser‐polarized xenon gas. Both areas utilize the pulsed gradient spin‐echo (PGSE) techniques in the gas phase, with the aim of obtaining more sophisticated information

Pulsed-field-gradient (PFG) NMR observations of spatial where E(q, D) is the echo amplitude relative to the amplitude at q Å 0 as a function of the magnitude of the wave restrictions to diffusion have great potential for aiding spatial structure determination in a wide variety of porous media. vecto

We report a systematic study of xenon gas diffusion NMR in simple model porous media, random packs of mono-sized glass beads, and focus on three specific areas peculiar to gas-phase diffusion. These topics are: (i) diffusion of spins on the order of the pore dimensions during the application of the

Molecular chain di †usion in polyethylene crystals is studied using carbon-13 NMR longitudinal relaxation. Conventional slow-cooled polyethylene samples have been treated by means of electron-beam irradiation in acetylene, which forms crosslinks mainly at the fold surfaces. Following saturation, the

Xe NMR has been used to investigate intermolecular interacare used for the solubilization and encapsulation of drugs, tions between xenon and a-cyclodextrin in H 2 O and in DMSO. perfumes, and flavorings (19, 20). A most interesting appli-Nuclear Overhauser enhancement effects confirmed the formatio