19F-13C, 1H-13C Multi-Bond and Single-Bond 2D Correlations and Determinations of Coupling-Constant Signs

## Abstract The signs of all ^13^C^19^F and ^1^H–^19^F coupling constants in fluorobenzene, some substituted derivatives, and in 2‐fluoropyridine have been related using single‐frequency ^13^C{^1^H} double resonance techniques. All ^13^C^19^F couplings in these compounds are shown to be positive

## Abstract The details of two‐dimensional ^13^C^1^H correlated spectra have provided information about the relative signs of __J__(C, F) and __J__(F, H) for several molecules in which C, F and H are mutually coupled. Unlike signs are found for __J__(C, F) and __J__(F, H) when the coupling pathway

Conformational analysis of carbohydrates has depended, in large part, on the use of three-bond (vicinal) IH\_1H spin-coupling constants (31HH)' whose magnitudes can be correlated with molecular torsion angles, as first enunciated by Karplus [1]. In the ensuing years, more sophisticated Karplus relat

## Abstract Because of experimental and theoretical interest in long‐range ^1^H^19^F and ^13^C^19^F coupling constants between proximate atoms, a series of __N__‐alkylfluoroquinolinium compounds was synthesized and the NMR parameters were accurately measured. By means of spin tickling and selecti