NMR pulse gradient spin echo is the most efficient method for non-invasive elucidation of molecular transport in heterogeneous media. With a proper interpretation of experimental data, the method can also be applied to investigate molecular self-diffusion in pores small enough that the characteristic diffusion times are much shorter than time, needed to build up the spin phase structure by the pulse of magnetic field gradient. This is demonstrated by the analysis of restricted self-diffusion measurement of water molecules trapped in a polyamide membrane. The results are presented as a distribution of spin-relaxation rates and pore sizes in this nanoporous system that also present the method in its true colors as a useful tool in the bio-nan...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
Due to recent activity involving diffusion measurements using pulsed gradient spin echo techniques, ...
Proton nuclear magnetic resonance (NMR) was used to study the self-diffusion of water in porous syst...
A new pulsed-gradient spin-echo NMR protocol for assessing the local self-diffusion coefficient D(0)...
There is currently much interest in probing the structure that is required to retrieve information a...
Pulsed field gradient (PFG) nuclear magnetic resonance (NMR) allows recording of molecular diffusion...
Restricted diffusion of water in a highly concentrated w/o emulsion was studied using pulsed field g...
Inhomogeneous magnetic fields generated in porous media due to differences in magnetic susceptibilit...
The principles of the NMR method with pulsed magnetic field gradient and the use of this method in s...
Self-diffusion coefficients D*of liquids in porous media, as measured by the pulsed-field gradient N...
The NMR pulsed field gradient spin-echo (PFGSE) amplitude M(k,t) is a direct measure of the diffusio...
The structure and dynamics of water diffusion and -transport at a microscale in heterogeneous porous...
Unsaturated porous media form two-phase systems consisting of the liquid and its vapor. Molecular ex...
Field gradient NMR techniques have proved very useful for measurements of molecular self-diffusion c...
The pulsed-field gradient NMR method has been applied to study self-diffusion of liquids in mesoporo...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
Due to recent activity involving diffusion measurements using pulsed gradient spin echo techniques, ...
Proton nuclear magnetic resonance (NMR) was used to study the self-diffusion of water in porous syst...
A new pulsed-gradient spin-echo NMR protocol for assessing the local self-diffusion coefficient D(0)...
There is currently much interest in probing the structure that is required to retrieve information a...
Pulsed field gradient (PFG) nuclear magnetic resonance (NMR) allows recording of molecular diffusion...
Restricted diffusion of water in a highly concentrated w/o emulsion was studied using pulsed field g...
Inhomogeneous magnetic fields generated in porous media due to differences in magnetic susceptibilit...
The principles of the NMR method with pulsed magnetic field gradient and the use of this method in s...
Self-diffusion coefficients D*of liquids in porous media, as measured by the pulsed-field gradient N...
The NMR pulsed field gradient spin-echo (PFGSE) amplitude M(k,t) is a direct measure of the diffusio...
The structure and dynamics of water diffusion and -transport at a microscale in heterogeneous porous...
Unsaturated porous media form two-phase systems consisting of the liquid and its vapor. Molecular ex...
Field gradient NMR techniques have proved very useful for measurements of molecular self-diffusion c...
The pulsed-field gradient NMR method has been applied to study self-diffusion of liquids in mesoporo...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
Due to recent activity involving diffusion measurements using pulsed gradient spin echo techniques, ...
Proton nuclear magnetic resonance (NMR) was used to study the self-diffusion of water in porous syst...