13C NMR and quantum-chemical investigation of cation/ethene interaction

## Abstract This paper presents novel measurements and calculations of the olefinic ^13^C chemical shift tensor principal values in several metal diene complexes. The experimental values and the calculations show shifts as large as 70 ppm with respect to the values in the parent olefinic compounds.

The recently proposed empirical analysis of 8and y-SCS in terms of the local non-bonded van der Waals and electrostatic intramolecular interaction energies is extended to an application for the "C NMR chemical shifts (6) of primary, secondary and tertiary carbon atoms of numerous classes of unsubsti

The chemical shifts of methyl cation and anion have been calculated. The tensor components about the out-of-plane p orbitals were essentially the same, but the components about the in-plane axes differed by over 700 ppm. The experimental chemical shifts of benzene and the aromatic ions fall on the l

The "C NMR u-substitr;cnt effects within the series methane to neopentane acd ethene to isobutene have been calculated rrdng Hartree-Foc?c perturbation theory with XlINDO/3. The sign and order of magnitude of the calculated a-effects are in agcemen: with new experimental -&dues, including effects of

Carbon-13 NMR chemical shifts of 5-Z-substituted l-naphthonitriles (1; Z = H, F, CI, Br, NH, , NMe,, CN, NO,, OMe, CHO, C0,Me) in deuteriochloroform and in neat trifluoroacetic acid (TFA) are reported. The C N carbon shifts are found to correlate well with the dual substituent parameters (DSPs). Neg