Computational Evidence of the Incipient Oxocarbenium Ion as a "Hidden Intermediate" During the Cyclization of Hydroxyenol Ether into Spiroketal Under Mild Acidic Condition.

Abstract

The synthesis of spiroketals has gained attention because of their importance in chemical and biological reactions. Yet, the mechanistic investigation of mild acid-catalyzed spiroketalization remains elusive and less explored in the literature and speculated that such transformations may proceed through the oxocarbenium ion intermediate; however, the existence of such species in mild acid-catalyzed spiroketalization is not documented. The computational study has been performed at M06-2X/6-31+G(d) level to examine the kinetically controlled product formation for such reactions and the intrinsic reaction coordinates of 1 d suggest that the reaction proceeds via a "one-step, two-stage" mechanism with the formation of transient oxocarbenium as a "hidden intermediate" in the reaction. This study reveals that stereoelectronic interactions devoid the formation of stable oxocarbenium ion intermediate after the proton transfer transition state in the mild acid catalyzed spiroketalization process.