Proline-based thioureas

The Tsogoeva group, in 2006, reported the introduction of newly designed bifunctional secondary amine-functionalized proline-based thioureas (95 and 96) and the primary amine-functionalized thioureas (97-99) for catalysis of the asymmetric addition of ketones to trans-P-nitrostyrenes (Figure 6.30) [260, 261]. Using... 

Proline derivatives possess a prominent position among the aminocatalysts utilised for carbonyl activation. In combination with the readily tunable properties of the (thio)urea functionality for electrophile activation, the development of bifunctional chiral pyrrolidine-based (thio)ureas was a rational extension. In 2006, Tang and coworkers reported thiourea 55 that can catalyse the conjugate addition reaction between cyclohexanone and nitroalkenes (Scheme 19.63). In the presence of 20 mol% of chiral thiourea 55 and butyric acid as the cocatalyst, the q -products were delivered in high yields (up to 98%) and in excellent diastereo- (up to >99 1 dr) and enan-tioselectivities (up to 98% enantiomeric excess). In addition to aromatic nitroalkenes, aliphatic nitroalkenes were also tolerated, but required a long reaction time (6 days). 

More recently, it has been reported that primary amines derived from cinchona alkaloids [75] as well as proline derivatives [76], combined with achiral Brpnsted or Lewis acids, may also efficiently catalyze the enantioselective Biginelli reaction. Alternatively, a carbohydrate-based bifnnctional primary amine-thiourea catalyst was developed for this transformation, with similar enantiocontrol [77]. 

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