The study of solution dynamics is a very fundamental area of research with wide ranging importance from physical chemistry through to the life sciences. A common theme is that the interactions which control the dynamics and organization of solutions are generally very weak. Translational diffusion provides a non-invasive, direct and natural probe of the dynamics and pulsed gradient spin-echo (PGSE) NMR is a convenient means of measuring diffusion. This paper gives a brief introduction to translational diffusion as a probe of solution dynamics and of the PGSE NMR method before presenting some representative examples illustrating the power of diffusion measurements for elucidating the molecular behaviour. The use of PGSE NMR to study solutio...
Many practical applications of diffusion NMR, ranging from biomedical to industrial, entail the meas...
Pulsed-gradient spin-echoNMR (PGSE-NMR) has evolved into a powerful technique for probing colloidal ...
Over the last several decades NMR diffusion measurements have evolved into an ever more powerful sui...
The study of solution dynamics is a very fundamental area of research with wide ranging importance f...
In this chapter, the fundamentals of translational diffusion and PGSE NMR diffusion measurements and...
Nuclear magnetic resonance pulsed gradient-spin echo experiments allow probing complex solution prop...
Environmental samples generally contain a mixture of solutes of different but unknown sizes. Informa...
For a long time, X-ray and mass spectroscopic methods have been the techniques of choice for determi...
NMR provides a method to study the dynamics of proteins and the possibility of gaining an insight in...
Diffusion is a type of translational molecular motion playing a central role in a large number of ph...
Diffusion coefficients provide uniquely detailed and easily interpreted information on molecular org...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For ...
NMR diffusion measurements (or dNMR) provide a powerful tool for analysis of solution organization a...
We present a method to analyse pulsed gradient spin-echo (PGSE) NMR data from a mixture of compounds...
Pulsed gradient spin-echo nuclear magnetic resonance (PGSE NMR) diffusion measurements provide a pow...
Many practical applications of diffusion NMR, ranging from biomedical to industrial, entail the meas...
Pulsed-gradient spin-echoNMR (PGSE-NMR) has evolved into a powerful technique for probing colloidal ...
Over the last several decades NMR diffusion measurements have evolved into an ever more powerful sui...
The study of solution dynamics is a very fundamental area of research with wide ranging importance f...
In this chapter, the fundamentals of translational diffusion and PGSE NMR diffusion measurements and...
Nuclear magnetic resonance pulsed gradient-spin echo experiments allow probing complex solution prop...
Environmental samples generally contain a mixture of solutes of different but unknown sizes. Informa...
For a long time, X-ray and mass spectroscopic methods have been the techniques of choice for determi...
NMR provides a method to study the dynamics of proteins and the possibility of gaining an insight in...
Diffusion is a type of translational molecular motion playing a central role in a large number of ph...
Diffusion coefficients provide uniquely detailed and easily interpreted information on molecular org...
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For ...
NMR diffusion measurements (or dNMR) provide a powerful tool for analysis of solution organization a...
We present a method to analyse pulsed gradient spin-echo (PGSE) NMR data from a mixture of compounds...
Pulsed gradient spin-echo nuclear magnetic resonance (PGSE NMR) diffusion measurements provide a pow...
Many practical applications of diffusion NMR, ranging from biomedical to industrial, entail the meas...
Pulsed-gradient spin-echoNMR (PGSE-NMR) has evolved into a powerful technique for probing colloidal ...
Over the last several decades NMR diffusion measurements have evolved into an ever more powerful sui...