Add to ORKGRecent developments in solid-state NMR techniques helped acquire high-resolution NMR spectra for solid systems with structural disorder. But the structural origin of the observed chemical shift nonequivalence in these systems has not been revealed. We report a quantum chemical investigation of the solid-state NMR spectrum in N,N-bis(diphenylphosphino)-N-((S)-α-methylbenzyl)amine, where eight nonequivalent 31P NMR chemical shifts were resolved with a range of 13.0 ppm. Results from using different quantum chemical methods, computational algorithms, intermolecular effects, and structures indicate that for the disordered system, geometry optimization gives the best accord with experimental NMR chemical shifts, which has a theory-versus-experim...
Solid-state NMR is a valuable tool for structural studies since it provides the means to acquire spe...
This article discusses the existing methods to correlate NMR parameters describing the high resolut...
Oxygen is an important element in most biologically significant molecules, and experimental solid-st...
Recent developments in solid-state NMR techniques helped acquire high-resolution NMR spectra for sol...
We show how high-resolution NMR spectra can be obtained for solids for which the spectra are normall...
Although the solid state is typically characterised by inherent periodicity, many interesting physic...
Solid state NMR has been proven to be an efficient probe of structure and dynamics of molecules beca...
Theory and applications of solid-state NMR spectroscopy to study disorder phenomena in pharmaceutica...
The effect of the local structure on the P-31 NMR chemical shift tensor (CST) has been studied exper...
There are varieties of methods available for the exploration of solids using nuclear magnetic resona...
Measurements of chemical shifts obtained from magic-angle spinning NMR spectra (together with quantu...
This thesis is concerned with a systematic study of phosphine-containing transition metal complexes ...
We have recently described empirical correlations between 207Pb NMR chemical shift (oxidation state ...
Modern solid-state NMR techniques offer a wide range of opportunities for the structural characteriz...
Solid-state NMR spectroscopy has been used to obtain information about electronic structure and mole...
Solid-state NMR is a valuable tool for structural studies since it provides the means to acquire spe...
This article discusses the existing methods to correlate NMR parameters describing the high resolut...
Oxygen is an important element in most biologically significant molecules, and experimental solid-st...
Recent developments in solid-state NMR techniques helped acquire high-resolution NMR spectra for sol...
We show how high-resolution NMR spectra can be obtained for solids for which the spectra are normall...
Although the solid state is typically characterised by inherent periodicity, many interesting physic...
Solid state NMR has been proven to be an efficient probe of structure and dynamics of molecules beca...
Theory and applications of solid-state NMR spectroscopy to study disorder phenomena in pharmaceutica...
The effect of the local structure on the P-31 NMR chemical shift tensor (CST) has been studied exper...
There are varieties of methods available for the exploration of solids using nuclear magnetic resona...
Measurements of chemical shifts obtained from magic-angle spinning NMR spectra (together with quantu...
This thesis is concerned with a systematic study of phosphine-containing transition metal complexes ...
We have recently described empirical correlations between 207Pb NMR chemical shift (oxidation state ...
Modern solid-state NMR techniques offer a wide range of opportunities for the structural characteriz...
Solid-state NMR spectroscopy has been used to obtain information about electronic structure and mole...
Solid-state NMR is a valuable tool for structural studies since it provides the means to acquire spe...
This article discusses the existing methods to correlate NMR parameters describing the high resolut...
Oxygen is an important element in most biologically significant molecules, and experimental solid-st...
