Lanthanum(Ⅲ) Triflate-Catalyzed Cyclopropanation via Intramolecular Methylene Transfer

摘要

The value of cyclopropyl ring systems as unique structural elements and as reactive starting materials has inspired the invention of numerous methods for their preparation. Although many of these methods have proven to be profoundly useful for the construction of a range of important cyclopropyl architectures, the stereoselective synthesis of cyclopropanes, particularly those remote from other functionality, remains a significant challenge. We report here the development of a novel catalytic method for cyclopropanation involving intramolecular methylene transfer from epoxides to olefins.rnDuring the course of an attempted alcoholysis of epoxide 1 with benzyl alcohol catalyzed by lanthanum(Ⅲ) triflate, we were surprised to observe as the major product the cyclopropyl aldehyde 3, along with minor amounts of the target alcohol 2 (eq 1). Further investigation of this surprising transformation revealed that the benzyl alcohol was superfluous to cyclopropane formation, and that the product 3 could be isolated in approximately 40% yield simply by refluxing 1 in DCE in the presence of 10 mol % La(OTf)_3 (eq 2).