Relativistic effects on the chemical shift in solids: important points of a new contribution

In high-resolution solidstate CP/MAS 13C NhfR spectra of several hydrosybenzaldehydes, the downfield shifts due to hydrogen bonding for the carbonyl carbons are found to vary inversely with the O...O hydrogen-bond distances\_ Conformations of the aldehyde groups in the solid state are determined by

## Abstract The proton transfer equilibrium in a series of double Schiff base derivatives of __trans__‐1,2‐diaminocyclohexane in solution and the solid state was studied by means of ^15^N NMR spectroscopy and analysis of the deuterium isotope effect on the chemical shifts Δ^15^N(D). The presence of

The inÑuence of hydrogen bonding (HB) on the 13C chemical shift tensors in four solid amino acids was studied by the ab initio gauge-included atomic orbital (GIAO) approach. The results of the present calculations were compared with those predicted previously and with the experimentally observed shi

## Abstract Schiff base derivatives of 2‐hydroxynaphthylaldehyde were studied by means of ^13^C and ^15^N cross‐polarization magic angle spinning NMR spectroscopy and deuterium isotope effects on ^15^N chemical shifts, ΔN(D), in the solid state. ΔN(D) in the solid state provided evidenced for the p