Deuterium isotope effects in 13C NMR spectroscopy: Stereochemical assignment of monodeuteriated allylic alcohols.

## Abstract The ^13^C FT NMR spectra of β‐D‐glucopyranosides (including their tetraacetates) of several secondary allylic and benzylic alcohols were compared with those of methyl β‐D‐glucopyranoside and the corresponding parent alcohols. The characeristic glucosidation shifts observed for these alc

A detailed analysis of the -C NMR spectra of trans-stilbene and ten deuteriated trans-stilbenes has been undertaken. Some unusual deuterium isotope effects on carbon-hydrogen spin-spin coupling constants could not be explained by the ordinary primary and secondary isotope effects. The positive and n

## Abstract Isotope effects on the chemical shift of ^13^C directly bonded to the isotopes ^35^Cl and ^37^Cl are reported for a wide range of chlorohydrocarbons. By recording ^13^C NMR spectra under conditions of composite pulse ^1^H decoupling, ^13^C resonances can be obtained that are sufficientl

In this and subsequent papers the deuterium isotope effect is defined as h(D,H)=S(D)-h(H) following the convention used in referencing chemical shifts [ 101.