Intramolecular Simmons-Smith Cyclopropanation. Studies into the Reactivity of Alkyl-Substituted Zinc Carbenoids, Effect of Directing Groups and Synthesis of Bicyclo[n.1.0]alkanes

An intramolecular Simmons-Smith (IMSS) cyclopropanation has been developed, providing a novel method for the construction of substituted bicycloalkanes First, functionalized gem-diiodoalkanes containing allylic alcohols were prepared in high yield Then the intramolecular cyclization to form different ring sizes was investigated and proved to be successful for the synthesis of bicyclo[3 1.0]hexanes and bicyclo[4.1.0]heptanes. Larger chain lengths led to terminal alkene-containing products Analysis of the product distribution for the different ring sizes and under various reaction conditions provided insight into the reactivity of substituted zinc carbenoids, and by the appropriate choice of conditions cyclopropanation could be promoted over alternative reaction pathways Next the ability of allylic groups to promote the IMSS reaction by directing the zinc carbenoid was examined for the formation of bicycloheptanes A scale of 'directing-ability' for these allylic groups has been rationalized, with an OMOM directing group providing the greatest enhancement in formation of the bicycle Finally, the scope of the cyclization in forming substituted bicyclo[3.1.0]hexanes was explored. Substitution on the alkene and at the allylic position was well tolerated, providing the bicyclic products in high yields Additionally, the IMSS reaction allowed a highly diastereoselective synthesis of a 5-3-5 fused tricycloalkane These studies will have implications for the use of substituted carbenoids in cyclopropanation reactions and for directed cyclopropanation reactions as well as in the synthesis of substituted bicycloalkanes.