On the correlation between ionization potentials and carbon-13 chemical shifts in monosubstituted benzenes

## Abstract Carbon–proton and carbon–deuteron coupling constants were measured in the isotopomers CH~2~Cl~2~, CHDCl~2~ and CD~2~Cl~2~. The primary and secondary isotope effects on the carbon–proton coupling are −0.60 (±0.05) and −0.25 (±0.01) Hz, respectively. The deuterium‐induced ^13^C isotope sh

## Abstract The results of an MOLCAO calculation on both σ and π electron systems of several substituted benzenes are reported. The charge densities obtained reproduce the dipole moments of the molecules examined, provided that substituents with strong mesomeric effects are not present. It is shown

## Abstract ^13^C NMR spectra of six epimeric substituted 4‐hydroxypiperidines and two corresponding piperidines were recorded. Substituent parameters for equatorial methyl, __gem__‐dimethyl, equatorial hydroxy and axial hydroxy groups were calculated from the ^13^C chemical shifts of these compoun

## Abstract The ^13^C chemical shifts of symmetric tetra‐__n__‐alkylammonium cations with __n__ = 1–18 were identified unambiguously using two‐dimensional homonuclear (^1^H) chemical shift correlation (COSY) and heteronuclear (^1^H, ^13^C) chemical shift correlation spectroscopy (XHCORR). The ^13^C