Quantifying resonance through a Lewis Valence Bond approach: application to haloallyl and carbonylcations
Abstract
A recent Valence Bond scheme based on Lewis structures, the VBB method (M. Linares, B. Braida and S. Humbel, J. Phys. Chem. A, 2006, 110, 2505–2509)1 is applied to resonance effect quantification. An accurate evaluation of this effect is provided by targeting π interactions only, while all other factors remain constant. Valence Bond theory allows us to circumvent two main shortcomings of other approaches, i.e. the lack of a quantitative aspect, and the difficulty to properly separate resonance from other effects. The π effect of fluorine and chlorine atoms is found to be comparable and quite significant (∼20 kcal mol−1), in both haloallyl and protonated carbonyl