Multiple-field carbon-13 and proton relaxation in sucrose in viscous solution

Carbon-13 relaxation times and nuclear Overhauser enhancement values were determined for the carbons of calix [4]arene in both CDCl 3 and DMSO-d 6 solvents at magnetic field strengths of 5.9, 9.4, and 14.1 T at 30 °C. The relaxation data for the CDCl 3 solution were well described by an isotropic mo

Carbon-13 and proton spin-lattice relaxation times have been discussed in terms of intramolecular motions for solutions of poly(dimethyl-and poly(diphenylphenylene.oxides). The most suitable auto-correlation function seems to be a sum of several exponential modes. Comparison with the results of prev

## Abstract Knowledge of ^13^C chemical shift anisotropy (CSA) in nucleotide bases is important for the interpretation of solution‐state NMR relaxation data in terms of local dynamic properties of DNA and RNA. Accurate knowledge of the CSA becomes particularly important at high magnetic fields, pre

## Abstract The total proton and carbon‐13 NMR assignments of quinghaosu I, II and V isolated from __Artemisia annua__ cultivated in Brazil and of the synthetic derivatives quinghaosu alkene, ketone and epoxy are reported. The conformations and conformational equilibria of these compounds in soluti

## Abstract Carbon‐13 spin–lattice relaxation times and NOE factors are reported for a tetrasaccharide, lacto‐__N__‐neotetraose, in solution as a function of temperature and magnetic field. The data that are outside the extreme narrowing regime are analysed using the ‘model‐free’ approach of Lipari