engleski

Antiaromatic Systems - G2 Studies of Benzene and Cyclobutadiene

The problem of protonation of benzene (B) and cyclobutadiene (CB) is addressed by the ab initio G2 benchmark computations. It appears that the sigma-complexes are the most favourable protonated forms in both cases.The proton affinity (PA) of CB is by 45 kcal/mole higher than that of B, which is rationalized by a decrease in the antiaromatic destabilization of the four-membered ring and stabilization by the allylic cation formation upon protonation accompanied by the ring puckering,which enables an effective additional homoconjugative interaction.The barrier for the hydrogen ring walk in B is estimated to be 8.6 kcal/mole leading to 7 equivalent hydrogens on the NMR time scale. In contrast, this barrier in (CB} is 43.6 kcal/mole implying that the ring walk is precluded in this cationic system. The ring flipping inversion barrier of the sigma-protonated CB is estimated to be 7 kcal/mole thus being in good accordance with experiment. The striking structural features of sigma and pi-protonated configurations of B and CB involve degrees of pyramidalization and tetrahedral distortions of carbon atoms, which are briefly discussed. Some practical models, alternative to the G2 scheme, designed for studying the PA of aromatic and antiaromatic compounds are examined and recomended.

benzene; cyclobutadiene; proton affinity; basicity; aromaticity; antiaromaticity; homoaromaticity; Wheland sigma-complex

nije evidentirano