화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.141, No.1, 118-122, 2019
Cationic Cascade for Building Complex Polycyclic Molecules from Simple Precursors: Diastereoselective Installation of Three Contiguous Stereogenic Centers in a One-Pot Process
An expedient strategy for the synthesis of polycyclic small molecules is described. The method first joins together two achiral building blocks (an enyne and an aldehyde or a ketone) using an alkynyl halo-Prins protocol. Then, in the same reaction vessel, acidic conditions initiate a cationic cascade that includes a stereospecific halo-Nazarov electrocyclization and a diastereoselective Friedel-Crafts allylation. The entire sequence forms three carbon-carbon bonds and a carbon-halogen bond, generating halocyclopentene adducts in one pot from simple precursors. The process occurs with excellent diastereocontrol, providing highly functionalized polycycles containing three tertiary or quaternary stereogenic centers in a linear array. It is even possible to install three contiguous all-carbon quaternary centers using this method.