Add to ORKGThe range of applications and versatility of NMR diffusion measurements [1,2] increase with the speed, accuracy, and the practical lower concentration limits that can be used. For example, faster measurements expand the horizons of diffusion measurements to study reaction kinetics [3,4], as well as simply increasing throughput. Our group has been investigating various approaches for improving the performance of NMR diffusion measurements. Here we present some of our recent advances
Nuclear magnetic resonance is a powerful nonintrusive technique for measuring diffusion coefficients...
ABSTRACT: Nuclear magnetic resonance is a powerful nonintrusive technique for measuring diffusion co...
This review focuses on the study of self-diffusion (intra-diffusion) by NMR, although NMR in the fo...
The range of applications and versatility of NMR diffusion measurements [1,2] increase with the spee...
In addition to increasing throughput, increasing the speed of NMR diffusion measurements extends the...
NMR diffusion measurements have become the method of choice for measuring diffusing due to their wid...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For ...
The growth and range of application of NMR‐based diffusion studies has been phenomenal, with applica...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For systems that ra...
Over the last several decades NMR diffusion measurements have evolved into an ever more powerful sui...
Nuclear magnetic resonance pulsed gradient-spin echo experiments allow probing complex solution prop...
This work explores mobility phenomena for molecular species in solution. Chapter 2 details the time-...
A novel NMR approach allows one to efficiently determine translational diffusion coefficients of mac...
NMR diffusion measurements have been undergoing continuous theoretical and practical development for...
NMR is a powerful non-invasive technique utilizing radiofrequency and gradient pulses to manipulate ...
Nuclear magnetic resonance is a powerful nonintrusive technique for measuring diffusion coefficients...
ABSTRACT: Nuclear magnetic resonance is a powerful nonintrusive technique for measuring diffusion co...
This review focuses on the study of self-diffusion (intra-diffusion) by NMR, although NMR in the fo...
The range of applications and versatility of NMR diffusion measurements [1,2] increase with the spee...
In addition to increasing throughput, increasing the speed of NMR diffusion measurements extends the...
NMR diffusion measurements have become the method of choice for measuring diffusing due to their wid...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For ...
The growth and range of application of NMR‐based diffusion studies has been phenomenal, with applica...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For systems that ra...
Over the last several decades NMR diffusion measurements have evolved into an ever more powerful sui...
Nuclear magnetic resonance pulsed gradient-spin echo experiments allow probing complex solution prop...
This work explores mobility phenomena for molecular species in solution. Chapter 2 details the time-...
A novel NMR approach allows one to efficiently determine translational diffusion coefficients of mac...
NMR diffusion measurements have been undergoing continuous theoretical and practical development for...
NMR is a powerful non-invasive technique utilizing radiofrequency and gradient pulses to manipulate ...
Nuclear magnetic resonance is a powerful nonintrusive technique for measuring diffusion coefficients...
ABSTRACT: Nuclear magnetic resonance is a powerful nonintrusive technique for measuring diffusion co...
This review focuses on the study of self-diffusion (intra-diffusion) by NMR, although NMR in the fo...