Enantioselective reactions substitutions

Another important example of an enantioselective reaction mediated by a chiral catalyst is the hydrogenation of 3-substituted 2-acetamidoacrylic acid derivatives. 

S ]2 -selective reactions between primary allylic substrates and otganocoppet reagents testiU in the creation of new Chirality in previously aChital molecules, and it is tempting to try to take advantage of this for the development of enantioselective allylic substitution reactions. 

Since Pd complexes are well-known catalysts for enantioselective allylic substitution reactions, here the catalytic behaviour of palladium NPs for this reaction is examined (Scheme 1). One example involving a chiral phosphite with a carbohydrate backbone, able to coordinate firmly at the surface of NPs together with oxygen atoms capable to interact weakly with this surface, is presented. In particular. 

The best enantioselectivity achieved so far was in intramolecular alkoxycarbonylation reactions. For example, using Pd(OAc)2 with a chiral diphosphine ligand on //-substituted allylic alcohols containing dialkyl substituents at the a-position gave good enantioselectivity [105,106]. More recent studies show that it is possible to carbonylate enantioselectively p,/-substituted allylic alcohols [107]. Thus, following the observations achieved with non-chiral Pd(0)(dppb) complexes that fraus-disubslituted lactones can be selectively produced from -substituted allylic alcohols [87], hindered chiral... 

The stoichiometric enantioselective reaction of alkenes and osmium tetroxide was reported in 1980 by Hentges and Sharpless [17], As pyridine was known to accelerate the reaction, initial efforts concentrated on the use of pyridine substituted with chiral groups, such as /-2-(2-menthyl)pyridine but e.e. s were below 18%. Besides, it was found that complexation was weak between pyridine and osmium. Griffith and coworkers reported that tertiary bridgehead amines, such as quinuclidine, formed much more stable complexes and this led Sharpless and coworkers to test this ligand type for the reaction of 0s04 and prochiral alkenes. 

The cationic chiral Lewis acids 10, generated from the corresponding oxazaboroli-dines by protonation by trifluoromethanesulfonic acid, are excellent catalysts for the enantioselective reaction of 2-substituted acroleins, a-unsaturated a,p-enones, a-unsaturated acrylic acid esters, and a-unsaturated acrylic acids with a variety... 

The best enantioselectivity (35% ee) was observed in the reaction of l-(l-naphthyl)-2-propyn-l-ol with acetone in the presence of a complex bearing a 1-naphthylethylthio-lato moiety as a chiral ligand. Although the enantioselectivity is not yet satisfactory, this was the first example of an enantioselective propargylic substitution reaction catalyzed by transition metal complexes [27]. It is noteworthy that the chiral thiolate-bridged ligands work to control the chiral environment around the diruthenium site. 

Scheme 7.19 The first example of enantioselective propargylic substitution reactions catalyzed by chiral thiolate-bridged diruthenium complexes.

Scheme 7.21 Enantioselective propargylic substitution reactions of various propargylic alcohols catalyzed by a chiral thiolate-bridged diruthenium complex.

Glos and co-workers introduced the aza-bis(oxazolines) 258 and 259 (Fig. 9.78) as a new class of chiral C2-symmetric bis(oxazoline) ligands.These catalysts were used in various reactions such as enantioselective allylic substitution and cyclopropanation it was also shown that these new catalysts could easily be tethered to a polymeric support, as shown in structure 259, allowing for facile recovery of the catalyst. There have been other examples of bis(oxazoline) ligands immobilized on solid supports and their use in catalysis.These methods have shown mixed results. 

Thus, a synthetic cycle for the formation of enantiomerically pure propargylic alkylated compounds from an achiral propargylic alcohol has been accomplished by starting from the ruthenium-BINAP complex 66 (Scheme 12). This stepwise reaction provides the first synthetic approach to highly enantioselective propargylic substitution reactions. 

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