The effect of steric hindrance upon C13 - H1 coupling constants and methyl proton chemical shifts

## 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 ^13^C chemical shifts and some ^1^H^13^C coupling constants of twelve __N__‐arylpyrazoles are reported. The assignments were made by using the effects of a fluorine substituent and two‐dimensional techniques.

## Abstract 2D NMR techniques (__J__‐resolved ^13^C, ^13^C^13^C correlated, ^1^H^13^C correlated) were used to gather more chemical shift and coupling information on the pentacyclic triterpene, lupane. They confirm and complete ^13^C assignments made earlier, and corroborate the constitution and

The protop coupled and decoupled 13C NMR spectra of 4H-quinoliziue 1,2,3,44etracarboxylate and its less stable tautomer 9aH-quinolizine 1,2,3,4-tetracarboxylate have been investigated. All 13C resonances Pave been assigned, and a number of the one-, two-and three-bond carbon-proton coupling constant