Density Functional Theory Computational Reexamination of the Anomeric Effect in 2-Methoxy- and 2-Cyano-1,3-dioxanes and 1,3-Dithianes. Stereoelectronic Interactions Involving the Cyano (C N:) Group Revealed by Natural Bond Orbital (NBO) Analysis

摘要

This study reports DFT geometry optimization of the anancomeric (ring conformationally anchored) axial r2-methoxy- trans-4, trans-6-dimethyl- and r-2-cyano- trans-4, trans-6-dimethyl-1,3-dioxanes (1-ax and 3-ax, respectively), the equatorial isomers (2-eq and 4-eq, respectively), the axial r2-methoxy- and r2-cyano- trans-4, trans-6-dimethyl-1,3-dithianes (5-ax and 7-ax, respectively), and the equatorial isomers (6-eq and 8-eq, respectively). The computational results reproduce the anomeric effect in 1-8, and most importantly, Weinhold's NBO analysis supports the contribution of n(X) - sigma*(C-Y) stereoelectronic interactions that stabilize the axial isomers. Furthermore, NBO analysis of delocalization energy E(2) of properly aligned filled/empty orbitals in these isomeric 2-polar-substituted heterocycles reveals that n(O) - sigma*(C-H-ax) is responsible for the increased charge density at C(2)-H-ax in the equatorial isomers, providing an explanation for the computational observation that very recently led Wiberg, Bailey, Lambert, and Stempel ( J. Org. Chem. 2018, 83, 5242-5255) to discard a potential contribution of n(X) - sigma*(C-Y) stereoelectronic interactions that stabilize the axial isomers. Interestingly, during the course of this study, two relevant stereoelectronic interactions involving the cyano group were revealed, n(N) - sigma*(NC-C) and sigma(C(2)-H) - sigma*(C-N).