Gravel, Michel2013-09-162013-09-162012-092013-07-29Septemberhttp://hdl.handle.net/10388/ETD-2012-09-523This work covers recent advances in the Stetter reaction, including two novel domino Stetter reactions and preliminary studies on quaternary center formation via the intermolecular Stetter reaction. The N-heterocyclic carbene (NHC) catalyzed domino Stetter-aldol-Michael dimerization of o-formyl chalcone derivatives 36 affords spiro bis-indane homo-dimers 38 in good yields and moderate to high diastereomeric ratios. Three carbon-carbon bonds, including the hindered quaternary center at the spiro ring junction, form at a remarkable rate under mild reaction conditions. Spiro bis-indanes 39 are also produced in moderate to good yields through the Stetter-aldol-aldol reactions of o-formyl chalcones 36 with phthalaldehyde derivatives 27. The scope, limitations, and potential applications of these remarkable complexity-generating domino reactions are discussed. Preliminary results in the formation of quaternary centers via the intermolecular Stetter reaction are also disclosed. The viability of β,β-disubstitued Meldrum’s acid, diethyl malonate, and malononitrile alkylidenes as well as diphenylcyclopropenone and 3-phenylcyclobutenone as acceptors in the Stetter reaction are discussed.engStetter reactioncarbenesorganocatalysisumpolungdomino reactionstext