The dependence of one-bond 13C-13C coupling constants on bond angles - a comment

It has been observed that one-bond 13C-13C coupling constants are almost invariant with C-C-C bond angles between tetrahedral and 127" for hydrocarbons where the central atom is a CH2 group. An empirical quadratic equation is obtained which relates lJCC with the internuclear C-C-C angle, '9. The rec

## Abstract Two‐bond ^13^C^13^C coupling constants are discussed on the basis of INDO‐SCPT calculations. The dependence of ^2^__J__(CC) on bond angle variation and on methyl substitution is evaluated, and it is shown that ^2^__J__(CC) depends linearly on the bond orbital __s__‐character product of

Previously published one-bond 55Mn,13C coupling constants have been recalculated using a revised lineshape Btting program, QUADR. The accuracy of the new data was confirmed by the simulation of quadrupole-broadened but resolved 13C and "F spectra of the model complexes K,[Co(CN),] and Li(AsF,j. The

## Abstract Measurements of one‐bond carbon–carbon coupling constants, ^1^__J__(C, C), were performed for two series of compounds, alkyl‐substituted cyclopropenes and cyclopropanes. The experimental data were complemented by a set of DFT‐calculated __J__ couplings for the parent cyclopropene (**1**

## Abstract Endocyclic one‐bond ^13^C^13^C spin–spin coupling constants in a series of cubane derivatives were recorded. The values measured using the INADEQUATE pulse sequence were found to be insensitive to the nature of the substituent, fall in a narrow range (27–30 Hz) and are comparable to va

## Abstract The one‐bond coupling constant ^1^__J__ ^13^CH for the halogenated carbon in α‐halogenocyclohexanones is more important when the CH bond is in the equatorial then in the axial position. When a conformational equilibrium is present, the resulting coupling is a linear function of the eq