A detailed mechanistic study of the -selective allylic functionalization via thianthrenium salts is presented. Kinetic analyses, deuterium labeling experiments, and computational methods are used to rationalize the observed reactivity and selectivity. We find that the reaction proceeds via a rate-determining and stereodetermining allylic deprotonation of an alkenylthianthrenium species. The -configuration of the resultant allylic ylide is translated into the -allylic amine product through a sequence of subsequent fast and irreversible steps: protonation to form a -allylic thianthrenium electrophile and then regioselective substitution by the nucleophile. In the stereodetermining deprotonation step, computational studies identified a series of stabilizing nonbonding interactions in the -alkene-forming transition state that contribute to the stereoselectivity.

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http://dx.doi.org/10.1021/jacs.4c00682DOI Listing

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