Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1. Their predictions are quantitatively corroborated by experiments on a single crystal of deuterated biphenyl. In this system, a molecular flip process drives spin diffusion and makes it strongly temperature dependent. In the second part, it is shown how spin diffusion of quadrupolar order degenerates into cross relaxation. A single crystal of partially deuterated durene provides a clear−cut example of cross relaxation in a dipolar coupled pair of spinsS= 1. This observation explains why, in solids, the relaxation time of quadrupolar order,T1Q, is often much shorter than
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
A formalism is presented permitting the evaluation of the relative mean-squared displacement of mole...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= 12 andS=...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= 12 andS=...
Spectral spin diffusion in resolved solid-state NMR spectra is analyzed for various types of systems...
We demonstrate by selective saturation deuteron NMR experiments on a deuterated crystal of bis-(4-ch...
We demonstrate by selective saturation deuteron NMR experiments on a deuterated crystal of bis-(4-ch...
The polarization transfer from the para to the ortho/meta deuterons was investigated in a single cry...
The polarization transfer from the para to the ortho/meta deuterons was investigated in a single cry...
Journal ArticleWe introduce a new dipolar relaxation lime TU)' which characterizes the spin-lattice ...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
A formalism is presented permitting the evaluation of the relative mean-squared displacement of mole...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= 12 andS=...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= 12 andS=...
Spectral spin diffusion in resolved solid-state NMR spectra is analyzed for various types of systems...
We demonstrate by selective saturation deuteron NMR experiments on a deuterated crystal of bis-(4-ch...
We demonstrate by selective saturation deuteron NMR experiments on a deuterated crystal of bis-(4-ch...
The polarization transfer from the para to the ortho/meta deuterons was investigated in a single cry...
The polarization transfer from the para to the ortho/meta deuterons was investigated in a single cry...
Journal ArticleWe introduce a new dipolar relaxation lime TU)' which characterizes the spin-lattice ...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
A formalism is presented permitting the evaluation of the relative mean-squared displacement of mole...