Theoretical ab initio calculation of the indirect nuclear spin-spin coupling constants of monohetero cyclopropanes and cyclopropenes via the equations-of-motion method

## Abstract We present calculations of indirect nuclear spin–spin coupling constants in large molecular systems, performed using density functional theory. Such calculations, which have become possible because of the use of linear‐scaling techniques in the evaluation of the Coulomb and exchange‐cor

Density functional theory, in particular, with the Becke-3-parameter-Lee-Yang-Parr (B3LYP) hybrid functional, has been shown to be a promising method for the calculation of indirect nuclear spin-spin coupling constants. However, no systematic investigation has so far been undertaken to evaluate the

## Abstract Finite perturbation calculations using CNDO/2 wave functions are presented for the determination of ^31^P^13^C and ^31^P^1^H couplings. The calculations were carried out on 46 molecules and a comparison with experimental values is given. The groups of compounds considered were phospho

Ab initio calculations using the equations of motion approach are reported for 'J( 13C"C) of the bridgehead bond in [ 1.1.1 I-, 12.1.1 I-, [2.2.1 I-, [2.2.2]-, [3.2.1 ]-propellane, bicyclobutane, bicyclopentane, bicyclohexane and tetracyclopentane. The results give an overall picture of the influenc