Abstract
The geometrical changes that take place after complexation of the carbonyl oxygen of 3-halocyclohexanones with prototypical cations such as H + and Li + were calculated using ab initio MO methods at 6-31G level. The torsion angle changes interpret rationally the experimentally known axial preference of the 3-eq-derivatives and the axial preference (predicted from transition state calculations) of the 3-ax-species. Stereoelectronic effects in 3-ax-halocyclohexanones and 1,3-dipolar interactions in 3-eq-halocyclohexanones after complexation of the carbonyl oxygen with cations such as H + and Li + account for the experimentally observed and the predicted diastereoselectivities, respectively, of these molecules. The complexation induces pyramidalization of the carbonyl carbon and controls the p orbial to adopt an energetically favorable orientation (ax or eq) for capture by a nucleophile.
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