Michael catalytic asymmetric

Acrylonitrile, polymerization, 120 Activity of phase-transfer catalysts Sjj2 reactions, 170-175 weak-nucleophile Sj.Ar reactions, 175-182 Acyltetracarbonyl cobalt compound, cleavage in the carboxyalkylation of alkyl halides, 150 Addition reactions, Michael, catalytic asymmetric, 69,70f... 

Jautze S, Peters R (2010) Catalytic asymmetric Michael additions of a-cyano acetates. Synthesis 365-388... 

By using LaNa3-tris(binaphthoxide) (LSB) 55, catalytic asymmetric Michael addition of thiols to cycloalkenones took place to provide the adduct 56 with high ees in good yields (Eq. 7.41) [48]. 

Yamaguchi and coworkers have found that proline rubidium salts catalyze the asymmetric Michael addition of nitroalkanes to prochiral acceptors. When (25)-L-prolines are used, acyclic ( )-enones give (S)-adducts. Cyclic (Z)-enones give (R)-adducts predominantly (Eq. 4.139).203 Recently, Hanessianhas reported that L-proline (3 7% mol equiv) and 2,5-dimethylpiperazine are more effective to induce catalytic asymmetric conjugate addition of nitroalkanes to cycloal-kanones.204... 

Heterobimetallic asymmetric complexes contain both Bronsted basic and Lewis acidic functionalities. These complexes have been developed by Shibasaki and coworkers and have proved to be highly efficient catalysts for many types of asymmetric reactions, including catalytic asymmetric nitro-aldol reaction (see Section 3.3) and Michael reaction. They have reported that the multifunctional catalyst (f )-LPB [LaK3tris(f )-binaphthoxide] controls the Michael addition of nitromethane to chalcones with >95% ee (Eq. 4.140).205... 

Azoniaspirocycles have been derived from L-tartrate for use as phase-transfer catalysts <2002TL9535>. Catalyst 158 was synthesized in a straightforward manner (Equation 36), then used for catalytic asymmetric Michael reactions an example is shown (Equation 37). 

Abstract In the first part of this mini review a variety of efficient asymmetric catalysis using heterobime-tallic complexes is discussed. Since these complexes function at the same time as both a Lewis acid and a Bronsted base, similar to enzymes, they make possible many catalytic asymmetric reactions such as nitroal-dol, aldol, Michael, Michael-aldol, hydrophosphonyla-tion, hydrophosphination, protonation, epoxide opening, Diels-Alder and epoxi-dation reaction of a, 3-unsaturated ketones. In the second part catalytic asymmetric reactions such as cya-nosilylations of aldehydes... 

Table 6. Catalytic asymmetric Michael reactions promoted by the AlMbis(R)-binaphthoxide) complex (AMB).

Moreover, these rare earth heterobimetallic complexes can be utilized for a variety of efficient catalytic asymmetric reactions as shown in Scheme 7 Next we began with the development of an amphoteric asymmetric catalyst assembled from aluminum and an alkali metal.1171 The new asymmetric catalyst could be prepared efficiently from LiAlH4 and 2 mol equiv of (R)-BINOL, and the structure was unequivocally determined by X-ray crystallographic analysis (Scheme 8). This aluminum-lithium-BINOL complex (ALB) was highly effective in the Michael reaction of cyclohexenone 75 with dibenzyl malonate 77, giving 82 with 99% ee and 88 % yield at room temperature. Although LLB and... 

The mechanistic considerations of a catalytic asymmetric Michael reaction suggest that the reaction of a alkali metal enolate derived from a malon-ate derivative with an enone should lead to an intermediary aluminum enolate. Is it possible that such an A1 enolate could then be trapped by an... 

In the asymmetric total synthesis of the marine natural product, methyl sarcoate, the key step for the introduction of the chirality, was achieved by using an asymmetric Michael addition. Asymmetric addition of /-PrMgCl to aminal ester 93 in the presence of a catalytic amount of Cul, followed by acidic hydrolysis of the aminal function, afforded the chiral aldehyde 94 in 60% yield (Equation 10) <2005TL1263>. 

A catalytic asymmetric amination reaction has been developed using Cu(2+) catalysts (246). The azodicarboxylate derivative 392 reacts with enolsilanes in the presence of catalyst 269c to provide the adducts in high enantioselectivity, Eq. 213. As observed in the Mukaiyama Michael reactions, alcoholic addends proved competent in increasing the rate of this reaction. Indeed, in the presence of tri-fluoroethanol as additive, the reaction time decreases from 24 to 3 h. 

Figure 4. Catalytic asymmetric Michael addition and epoxidation.

Among the catalytic asymmetric alkyne additions to the sp carbon center, such as carbonyl, imines, and iminiums, truly metal-catalyzed alkyne addition to alkenes is rare. By using a PINAP derivative (Figure 5.4), Cu-catalyzed Michael addition... 

Scheme 44 Catalytic asymmetric reductive Michael cyclisation...

Scheme 45 Catalytic asymmetric Michael/Michael reactions...

Notz W, Tanaka F, Barbas CF (2004) Enamine-based organocatalysis with proline and diamines the development of direct catalytic asymmetric aldol, Mannich, Michael, and Diels-Alder reactions. Acc Chem Res 37(8) 580-591... 

D.3. CATALYTIC ASYMMETRIC MICHAEL ADDITION OF STABILIZED CARBON NUCLEOPHILES... 

TABLE 8D.l. Catalytic Asymmetric Michael Reaction with LnSB (10 mol %)... 

TABLE 8D.2. Catalytic Asymmetric Michael Reactions Promoted by LSB in CH2C12... 

Another highly useful heterobimetallic catalyst is the aluminum-lithium-BINOL complex (ALB) prepared from LiAlH4 and 2 equiv. of (/ )-BINOL. The ALB catalyst (10 mol %) is also effective in the Michael reaction of enones with various malonates, giving Michael products generally with excellent enantioselectivity (91-99% ee) and in excellent yields [23]. These results ate summarized in Table 8D.3. Although LLB and LSB complement each other in their ability to catalyze asymmetric nitroaldol and Michael reactions, respectively, the Al-M-(/ )-BINOL complexes (M = Li, Na, K, and Ba) are commonly useful for the catalytic asymmetric Michael reaction. 

Significant improvement in the catalytic activity of ALB was realized without any loss of enantioselectivity by using the second-generation ALB [27] generated by the self-assembled complex formation of ALB with alkali metal-malonate or alkoxide. This protocol allowed the catalyst loading to be reduced to 0.3 mol %, for example, the Michael addition of methyl malonate to cyclohexenone catalyzed by the self-assembled complex of (ff)-ALB (0.3 mol %) and KO Bu (0.27 mol %) in the presence of MS 4A gave the adduct in 94% yield and 99% ee [28]. This reaction has been successfully carried out on a 100-g scale wherein the product was purified by recrystallization. The kinetic studies of the reactions catalyzed by ALB and ALB/Na-malonate have revealed that the reactions are second-order to these catalysts (the rate constant ALB = 0.273 M 1h 1 ALB/Na-maionate = 1-66 M 1h 1) [27]. This reaction was used as the first key step for the catalytic asymmetric total synthesis of tubifolidine (Scheme 8D. 11) [28]. 

Figure 8D.7. Proposed Mechanism for the Catalytic Asymmetric Tandem Michael-Aldol Reaction Promoted by ALB.

TABLE 8D.5. Catalytic Asymmetric Michael Addition of Propyl Radical to A -Cinnamoyloxazolidinone... 

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