Thiourea bifunctional chiral

Following work on Michael addition of triazoles to nitro-olefins (discussed in Sect. 2.5), bifunctional chiral thiourea catalysts were used in the addition of triazoles to chalcones [83]. The catalytic system was applicable to enones bearing aromatic groups of varying electronic natures to provide good yields and moderate selectivity. a-Cyanoacetates [84] were also applied in Michael addition to chalcones under similar catalytic conditions (Scheme 33). 

The asymmetric alcoholytic ring opening of 4-substituted-2-phenyl-4,5-dihydro-l,3-oxazin-6-ones proved to be a efficient method for the preparation of enatiomerically pure /3-amino acid derivatives <2005AGE7466>. Treatment of 2,4-diphenyl-4,5-dihydro-l,3-oxazin-6-one 208 in the presence of the bifunctional chiral thiourea catalyst 211 resulted in formation of an enantiomerically enriched mixture of the unchanged oxazinone (iJ)-208 and allyl (4)-3-benzoyl-amino-3-phenylpropanoate 209. The resolved material (iJ)-208 and the product 209 could easily be separated by a selective hydrolytic procedure that converted oxazinone (iJ)-208 quantitatively into the insoluble iV-benzoyl /3-amino acid 210 (Scheme 37). 

There is an interesting variant of this reaction which involves the use of tert-butyldimethylsilyloxyacetaldehyde as Michael donors and chiral primary amine thiourea bifunctional catalyst 37b (Scheme 2.13). In this case, the diastereoselectivity of the reaction changed from the usually observed syn relative stereochemistry at the final Michael adduct to the formation of the anti diastereoisomer as the major product. This change in diastereoselectivity was explained in terms of the generation of a Z-enamine intermediate assisted by the formation of an intramolecular hydrogen bond between the secondary... 

Using the bifunctional chiral primary amine thiourea catalyst 41 (20 mol%) in CH Clj and in the presence of five equivalents of H O as additive, a highly enanti-oselective direct conjugate addition of a wide range of a,a-unsymmetrically dis-ubstituted aldehydes (only a twofold excess of aldehyde relative to nitroaUcene) to nitroolefins is obtained (see Table 2.1, entry 15, for a representative example) [61], The beneficial role of water is proposed to lie in increasing turnover by eliminating potential catalyst deactivation pathways, and accelerating the final imine hydrolysis. 

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). 

Li and coworkers have studied the reaction between cyclic ketones 133 and nitroolefins 134 in the presence of the chiral pyrrolidine-thiourea bifunctional catalyst 135 (Scheme 3.41), finding that it allows an enantioselective synthesis of 3-oxa- and 3-azabicyclo[3.3.1]nonan-9-one derivatives 136, probably via a domino process comprising allylic displacement and Michael reactions as the key steps [90],... 

The dual activation mode of the aforementioned cinchona alkaloid-derived thiourea catalysts proved to be highly effective in catalyzing the asynunetric Mannich reaction, among other transformations. These findings prompted the development of new, more simple bifunctional chiral catalysts that are predominately based on tra 5 -l,2-diaminocy-clohexane. For example, the application of the thiourea catalyst 120, which was developed by Takemoto and coworkers, afforded upon the reaction of Af-Boc-protected imines with diethyl malonate the desired chiral amines in good chemical yields (up to 91%) and enantioselectivities (98% ee) (Scheme 11.23) [81]. The catalytic mechanism presumably involves deprotonation and coordination of the active carbonyl compound by the chiral tertiary amine moiety. The formed enolate then attacks the si-face of the... 

Interfacially active guanidinium-thiourea bifunctional catalyst 190 catalyzes highly enantioselective nitroaldol reactions in the presence of an external base such as KOH in toluene/water biphasic conditions. Although the retro-nitroaldol reactions generally proceed under basic conditions, addition of KI inhibits the retro-process. A cooperative reaction mode between guanidinium and thiourea moieties is supported by experiments using structural variants of 190. A positive nonlinear effect is observed between the enantiomeric excess of 190 and the product 191. These results support the hypothesis that self-a egation of 190 is necessary for catalysis (Scheme 28.22) (96, 97). Catalyst 190 has been used in the synthesis of chiral tertiary alcohol products obtained in nitroaldol reactions of nitroalkanes and a-ketoesters [98],... 

Wang et al. s synthesis In 2011, a simple chiral primary amine thiourea bifunctional catalyst was introduced to the asymmetric Michael addition of 4-hydroxycoumarin to enones (Table 9.15). With Wang et al. s catalyst, l-[(15, 25)-2-amino-l,2-diphe-nylethyl]-3-benzylthiourea, all Michael additions could be smoothly performed to afford Michael... 

Mei RQ, Xu XY, Li YC, Fu JY, Huang (JC, Wang LX. Highly effective and enantioselective Michael addition of 4-hydroxy-coumarin to a, p-unsaturated ketones promoted by simple chiral primary amine thiourea bifunctional catalysts. Tetrahedron Lett. 2011 52(14) 1566-1568. 

An efficient regioselective and enantioselective bifunctional chiral thiourea-tertiary amine (25) catalysed hydroxyamination of C(3)-substituted oxindoles has been presented. 3-Amino-2-oxindoles with chiral quaternary stereocentres have been... 

Using the addition of dimethyl malonate to nitro-olefms as the model reaction, Connon et al. [72] in 2(X)5 reported a highly functionahzed Cinchona alkaloid-derived chiral thiourea. Key functional groups were identified to enhance the catalyst s stereodirecting properties. Aside from the advantage of a bifunctional Cinchona alkaloid... 

In 2003, Takemoto and co-workers introduced the first tertiary amrne-function-ahzed thiourea catalyst [129]. This new type of stereoselective thiourea catalyst incorporating both (R,R)-l,2-diaminocyclohexane as the chiral scaffold and the privileged 3,5-bis(trifluoromethyl)phenyl thiourea motif for strong hydrogen-bonding substrate binding, marked the introduction of the concept of bifunctional-... 

Scheme 6.55 Design principle of amine-functionalized bifunctional thiourea organocatalysts derived from privileged monofunctional thiourea 9 cooperating with an amine base additive (A) and basic bifunctional mode of action of chiral amine...

Figure 6.28 Bifunctional atropoisomeric thioureas and 58 lacking axial chirality screened in the cyanosilylation of benzaldehyde.

The modification of thiourea catalyst 93 through incorporation of the (S,S)-diaminocyclohexane backbone as an additional chirality element and a Schiff base imidazoyl-moiety led to the bifunctional catalyst 94 that, in contrast to 93 in the Strecker reaction (Scheme 6.99), exhibited enantioinduction (83-87% ee) in the nitro-Michael addition of acetone to trons-P-nitrostyrenes. The desired adducts were isolated in moderate yields (46-62%) as depicted in Scheme 6.100) [259]. 

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