Direct and enantioselective α-allylation of ketones via singly occupied molecular orbital (SOMO) catalysis

Abstract: The first enantioselective organocatalytic α-allylation of cyclic ketones has been accomplished via singly occupied molecular orbital catalysis. Geometrically constrained radical cations, forged from the one-electron oxidation of transiently generated enamines, readily undergo allylic alkylation with a variety of commercially available allyl silanes. A reasonable latitude in both the ketone and allyl silane components is readily accommodated in this new transformation. Moreover, three new oxidatively stable im… Show more

“…A significant advancement in this challenging endeavor was reported by the MacMillan group, who applied the concept of SOMO catalysis to direct enantioselective α‐allylation of unfunctionalized cyclic ketones (Scheme a) . In this transformation, allylsilanes were employed as the reagent.…”

“…As ignificant advancement in this challenging endeavor was reported by the MacMillan group, who applied the concept of SOMO catalysis to direct enantioselective a-allylation of unfunctionalizedc yclic ketones (Scheme1a). [11] In this transformation, allylsilanes were employed as the reagent. In addition, the Melchiorre group also successfully developed an enantioselective a-alkylation of unfunctionalized cyclic ketones using electron-deficient benzyl bromides or a-bromok etones under photo-organocatalysis.…”

Direct Enantioselective α‐Allylation of Unfunctionalized Cyclic Ketones with Alkynes through Pd‐Amine Cooperative Catalysis

“…A significant advancement in this challenging endeavor was reported by the MacMillan group, who applied the concept of SOMO catalysis to direct enantioselective α‐allylation of unfunctionalized cyclic ketones (Scheme a) . In this transformation, allylsilanes were employed as the reagent.…”

“…As ignificant advancement in this challenging endeavor was reported by the MacMillan group, who applied the concept of SOMO catalysis to direct enantioselective a-allylation of unfunctionalizedc yclic ketones (Scheme1a). [11] In this transformation, allylsilanes were employed as the reagent. In addition, the Melchiorre group also successfully developed an enantioselective a-alkylation of unfunctionalized cyclic ketones using electron-deficient benzyl bromides or a-bromok etones under photo-organocatalysis.…”

Direct Enantioselective α‐Allylation of Unfunctionalized Cyclic Ketones with Alkynes through Pd‐Amine Cooperative Catalysis

“…[39] Dabei katalysierte ein Tr ifluorbenzylcinchonidiniumbromid die Umsetzung mit Allyl-, Propargyl-und Benzylhalogeniden als Alkylierungsmitteln (Schema 18 a). [41] Mit dieser Methode wurden ausgezeichnete Enantioselektivitäten erzielt, allerdings war die Anwendbarkeit auf cyclische und heterocyclische Ketone und auf Allylsilane als Alkylierungsmittel begrenzt. [40] MacMillan et al berichteten 2010 über das erste Beispiel unter Verwendung der SOMO-Organokatalyse (SOMO = singly occupied molecular orbital;S chema 19).…”

Direkte asymmetrische Alkylierung von Ketonen: noch immer ein unerreichtes Ziel

“…17 The group have introduced a method for direct and enantioselective α-allylation of ketones using SOMO catalysis (Schemes 17 and 18). 18 In conjuction with MacMillan, Houk and co-workers have investigated the nature of the intermediates involved in organo-SOMO catalysis of α-arylation of aldehydes. 19 This was due to the fact that both the MacMillan group 20 and Nicolaou group 21 have reported the intramolecular α-arylation of aldehydes, where cyclization of a enamine radical was shown to react ortho to the methoxy group (as in Scheme 19), but 1,3,4-substituted aldehydes were shown to have a different reaction profile, preferring to cyclize to afford para arylated products.…”

Organocatalysis