Artefacts in magic-angle spinning n.m.r.: comments on ‘Potential of protonenhanced 13C n.m.r. for the classification of kerogensrs’

High resolution n.m.r. spectroscopy, involving the technique of cross-polarization, along with magicangle spinning, was used in the structural characterization of eight kerogens of different origins, selected to represent the three types of kerogens (types l-111 evolution paths). The influence of cr

C.p.-m.a.s. 13C-n.m.r. spectra and 13C spin-lattice relaxation times (I;) at room temperature have been measured for recrystallized samples of different polymorphs of amylose. Although the spectra of A-and B-amyloses in the dry state are very broad and ahnost structureless, the respective resonance

A method for estimation of aromatic content in oil shales is demonstrated. Magic-angle spinning at 2 kHz is shown to remove chemical shift anisotropy to a sufficient degree to resolve aromatic and aliphatic 13C n.m.r. spectral regions for a lithic oil shale specimen. The proton and carbon n.m.r. rel

## AJXXRACT The 13C cross-polarization, magic-angle spinning (CP-MAS) spectra of maltulose -Hz0 and anhydrous lactulose were examined at different applied magnetic and proton-decoupling fields B, and B,, respectively. Whereas the spectrum of lactulose was insensitive to these changes, that of malt

The chemical shifts and line-shapes of cross-polarisation-magic-angle sample spinning . 13C-n m-r. resonances have been analysed for p-nitrophcnol, p-hydroxybenzoic acid, benzoic acid, and m-nitrophenol in the solid state and likewise for inclusion complexes with host cyclomalto-hexaose and -heptaos

## Abstract An alternative explanation for δ‐__syn__‐axial substituent effects of ^13^C chemical shifts is given using the concept that the δ‐__syn__‐axial interaction in the substituted compound replaces the γ‐__gauche__ interaction in the parent molecule. The application of this principle to subs