H-D coupling constants and deuterium isotope effects on the proton chemical shifts in partially deuteriated methanes

## 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

The proton NMR spectra of '\*N-and '5N-ammonium ions have been recorded in H20/D20 mixtures under (acidic) conditions of slow proton exchange. Successive deuterium substitutions lead to unusual downfield shifts of about 20 ppb/D at the residual protons, but the effect is not additive; the increment

Primary p\*J(13C,H) and secondary s\*J(13C,H) isotope e †ects on carbonÈproton coupling constants were measured in studies of proton-and deuteron-coupled 13C NMR spectra of the halomethanes CH n D m X 4~n~m , where X is Cl, Br or I. Both e †ects are always negative. The magnitudes of p\*J(13C,H) inc

The influence of solvent polarity on the properties of hydrogen-bonded 1 : 1 complexes of 2,4,6trimethylpyridine-15 N with HF and DF, labeled below as FHN and FDN, has been studied by multinuclear magnetic resonance spectroscopy in the slow hydrogen bond exchange regime reached below 190 K. Mixtures

## Abstract The ^13^C NMR methyl group multiplet of the [cyclopentadienyltris(trimethylphosphine)iron]^+^ cation was simulated to obtain the sign and magnitude of the phosphorus‐phosphorus coupling constant and the ^13^C/^12^C isotope effect on the ^31^P chemical shift.