D. Cremer et al., EXPLORATION OF THE POTENTIAL-ENERGY SURFACE OF C9H9-INITIO METHODS .2. IS THE 1,4-BISHOMOTROPYLIUM CATION A BISHOMOAROMATIC PROTOTYPE( BY AB), Journal of the American Chemical Society, 115(16), 1993, pp. 7457-7464
The potential energy surface (PES) of C9H9+ has been investigated in t
he region of the 1,4-bishomotropylium cation (1) and its classical ana
logue, the cis-8,9-dihydro-1-indenyl cation (2) using second-, third-,
and fourth-order Moller-Plesset perturbation theory (MP2, MP3, MP4(SD
Q)) in connection with a 6-31G(d) basis set. Calculations show that 1
rather than 2 corresponds to a minimum-energy structure, contrary to r
ecent Hartree-Fock results. Ion 1 is clearly bishomoaromatic with inte
raction distances of 2.1 angstrom. Its homoaromatic character is refle
cted by bond and charge equalization in its seven-membered ring, by a
similar equalization of calculated IGLO/6-31G(d) C-13 chemical shifts,
and by MP2/6-31G(d) CC bond orders typical of aromatic delocalization
of 6pi electrons. Since the PES is rather flat in the vicinity of 1 a
nd since the homoaromatic stabilization energy is (with ca. 3 kcal/mol
) rather small, perturbations due to substituents, counterions, or med
ia may easily weaken homoaromaticity in 1. A detection of the homoarom
atic character of 1 and its derivatives is best carried out by C-13 NM
R measurements while energy-related measurements are probably not sens
itive enough to confirm homoaromaticity for 1.