Add to ORKGPulsed Gradient Nuclear Magnetic Resonance provides direct insight regarding the translational motion of spin-bearing molecules. These methods gain a second dimension when the simple gradient pulse pair is enhanced by a second pair. Where the motion encoding of the two pairs is opposite, flow effects are removed from the echo attenuation, making it possible to measure diffusion in the presence of shear flow, or to measure the stochastic part of dispersive flow, and in particular the velocity auto-correlation function. Where the gradient pulse pairs are stepped in independent dimensions, two-dimensional experiments become possible. One class (Fourier-Fourier) is the Velocity Exchange (VEXSY) experiment in which flow velocities may be correla...
Pulsed gradient spin-echo (PGSE) nuclear magnetic resonance (NMR) has become a method of choice for ...
We present a modulated gradient spin-echo method (MGSE), which uses a train of sinusoidally shaped g...
We consider the physical nature of the self-diffusion of water molecules in tissue and explore how (...
Pulsed Gradient Nuclear Magnetic Resonance provides direct insight regarding the translational motio...
Dispersion remains, today, a highly topical subject. Our group has been interested in characterizing...
The study of solution dynamics is a very fundamental area of research with wide ranging importance f...
Diffusion is a type of translational molecular motion playing a central role in a large number of ph...
Abstract Standard diffusion NMR measurements require the repetition of the experiment multiple time...
There is currently much interest in probing the structure that is required to retrieve information a...
A high resolution NMR probe was modified with gradient coils (31 mm diameter) for the measurement of...
In this article, the authors demonstrate a rapid NMR method to measure a full three-dimensional diff...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For systems that ra...
AbstractExchange of nuclear magnetization between spin pools, either by chemical exchange or by cros...
A novel NMR approach allows one to efficiently determine translational diffusion coefficients of mac...
Nuclear magnetic resonance pulsed gradient-spin echo experiments allow probing complex solution prop...
Pulsed gradient spin-echo (PGSE) nuclear magnetic resonance (NMR) has become a method of choice for ...
We present a modulated gradient spin-echo method (MGSE), which uses a train of sinusoidally shaped g...
We consider the physical nature of the self-diffusion of water molecules in tissue and explore how (...
Pulsed Gradient Nuclear Magnetic Resonance provides direct insight regarding the translational motio...
Dispersion remains, today, a highly topical subject. Our group has been interested in characterizing...
The study of solution dynamics is a very fundamental area of research with wide ranging importance f...
Diffusion is a type of translational molecular motion playing a central role in a large number of ph...
Abstract Standard diffusion NMR measurements require the repetition of the experiment multiple time...
There is currently much interest in probing the structure that is required to retrieve information a...
A high resolution NMR probe was modified with gradient coils (31 mm diameter) for the measurement of...
In this article, the authors demonstrate a rapid NMR method to measure a full three-dimensional diff...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For systems that ra...
AbstractExchange of nuclear magnetization between spin pools, either by chemical exchange or by cros...
A novel NMR approach allows one to efficiently determine translational diffusion coefficients of mac...
Nuclear magnetic resonance pulsed gradient-spin echo experiments allow probing complex solution prop...
Pulsed gradient spin-echo (PGSE) nuclear magnetic resonance (NMR) has become a method of choice for ...
We present a modulated gradient spin-echo method (MGSE), which uses a train of sinusoidally shaped g...
We consider the physical nature of the self-diffusion of water molecules in tissue and explore how (...