Nitroalkene enantioselective

Rovis and co-workers have also extended the intermolecular Stetter reaction to inclnde nitroaUcenes as the electrophilic component. Fluorinated triazolinm precatalyst 155 was effective in catalysing the reaction of a variety of heteroaromatic aldehydes 153 with nitroalkenes 154 to generate P-nitroketones in excellent yields and enantioselectivities. The authors propose that stereoelectronically induced conformational effects on the catalyst skeleton are key to the high selectivities observed with flnorinated catalyst 155 (Scheme 12.33) [69],... 

Hoashi, Y., Yabuta, T., Takemoto, Y. (2004) Bifunctional Thiourea-Catalyzed Enantioselective Double Michael Reaction of y,5-Unsaturated fS-Ketoesterto Nitroalkene Asymmetric Synthesis of (—)-Epibatidine. Tetrahedron Letters, 45, 9185-9188. 

Lithiated A-allylcarbamates add to nitroalkenes. In the presence of (-)-sparteine, this reaction is both diastereoselective (anti) and enantioselective.331... 

The chiral enamines provide the opportunity for the enantioselective Michael addition to nitroalkenes, as shown in Eq. 4.68, where the ketone is obtained as a single diastereomer with... 

Seebach and coworkers have developed enantioselective conjugate additions of primary dialkylzinc reagents to 2-aryl- and 2-heteroaryl-nitroalkenes mediated by titanium-TADDO-Lates (Eq. 4.90). x a TADDOLs and their derivatives are excellent chiral auxiliaries.9611... 

Dienes with Chiral Auxiliaries The use of dienes with the chiral auxiliary attached to the C-l position of the dienes is the most popular in asymmetric Diels-Alder reactions.59 In 1980, Trost reported high asymmetric induction in the Diels-Alder reaction using l-(S)-0-methylmandeloxy-l,4-butadiene59a However, the result obtained by Trost et al. has remained unique for more than a decade, at least in terms of enantioselectivity. The asymmetric Diels-Alder reaction of chiral diene-amines with nitroalkenes gives aminocyclohexenes with good diastereoselectivity (Eq. 8.37).60 The development in the area of chiral dienes is slow it may be due to the difficulty of preparing these compounds. 

The C2-symmetric bifunctional tridentate bis(thiazoline) 222 has been shown to promote the zinc(II)-catalyzed asymmetric Michael addition of nitroalkanes to nitroalkenes in high enantioselectivity <06JA7418>. The corresponding bis(oxazoline) ligand provides comparable enantioselectivity but higher product yield. The same bis(thiazoline) ligand has also been evaluated in the enantioselective Friedel-Crafts alkylation of indoles, but the enantioselectivity is moderate <06OL2115>. 

The enantioselective conjugate addition of dialkylzinc to nitroalkenes using other phosphoramidite,79,79a 83a sulfonamide,84 and binaphthol-based thioether ligands65 has also been studied in the past few years. Particularly noteworthy are the efficient chiral monodentate phosphoramidite ligands (S,R,R)-29 and (A,A)-55 developed by Feringa et al. and Alexakis et al., respectively, for this reaction. (S,R,R)-29 provided excellent enantioselectivities (up to 98% ee) for acyclic nitroalkenes (Scheme 25).80 It also worked well for other nitroolefin substrates such as 3-nitrocoumarin 7068 and methyl 3-nitropropenoate 7185. 

Alexakis et al. showed that under optimized experimental conditions, the enantioselectivity of the Cu-catalyzed conjugate addition of dialkylzinc to cyclic nitroolefin was improved to 95% with both (A,A)-55 and (R,S,S)-29.79,79a Biphenol-based phosphoramidite ligand (S,S)-55 also provided acyclic nitroalkenes adducts with 95-96% ee.42... 

Ojima and co-workers found that chiral monodentate phosphoramidite (S,R,R)-35 was highly effective for the enantioselective conjugate addition of diethylzinc to acyclic nitroalkenes (up to 99% ee).86... 

Hoveyda and co-workers presented the asymmetric addition of alkylzincs to small-, medium-, and large-ring nitroolefins with chiral peptide-based phosphines 57 as catalyst.87 The enantioselectivities were typically >90%. Ligand 57 also worked well in the asymmetric addition of dialkylzinc to acyclic disubstituted nitroalkenes (up to 95% ee Scheme 26).88... 

The first example of asymmetric rhodium-catalyzed 1,4-addition of organoboron reagents to enones was described in 1998 by Hayashi and Miyaura. Significant progress has been made in the past few years. This asymmetric addition reaction can be carried out in aqueous solvent for a broad range of substrates, such as a,/ -unsaturated ketones, esters, amides, phosphonates, nitroalkenes. The enantioselectivity is always very high (in most cases over 90% ee). This asymmetric transformation provides the best method for the enantioselective introduction of aryl and alkenyl groups to the / -position of these electron-deficient olefins. 

Feringa and co-workers applied monophosphoramidite ligand 81 in the addition of phenylboronic acid to nitroalkene and got moderate enantioselectivity (Scheme 39).118... 

In spite of the success of asymmetric iridium catalysts for the direct hydrogenation of alkenes, there has been very limited research into the use of alternative hydrogen donors. Carreira and coworkers have reported an enantioselective reduction of nitroalkenes in water using formic acid and the iridium aqua complex 69 [66]. For example, the reduction of nitroalkene 70 led to the formation of the product 71 in good yield and enantioselectivity (Scheme 17). The use of other aryl substrates afforded similar levels of enantioselectivity. 

Figure 3.13). " In addition, ligand 34 can achieve high enantioselectivity to a wide range of nitroalkene/diorganozinc combination (Figure 3.14). ... 

When nitroalkenes were used as Michael acceptors, high yields and enantioselectivities of the desired Michael addition products were also obtained (Scheme 5.22). In these reactions, a well-defined chiral Ru amido complex (Figure 5.9) was an efficient catalyst. The mild reaction conditions and high reactivities and stereoselectivities allowed a large-scale reaction in the presence 1 mol% Ru catalyst. By using a chiral Pd(II) catalyst, an asymmetric allylic arylation was reported by Mikami and coworkers to give the cross-couphng product via the activation of both allylic C H and aryl C H bonds in moderate enantioselectivity (Scheme 5.23). ... 

Akiyama and coworkers extended the scope of electrophiles applicable to asymmetric Brpnsted acid catalysis with chiral phosphoric acids to nitroalkenes (Scheme 57). The Friedel-Crafts alkylation of indoles 29 with aromatic and aliphatic nitroalkenes 142 in the presence of BINOL phosphate (7 )-3r (10 mol%, R = SiPhj) and 3-A molecular sieves provided Friedel-Crafts adducts 143 in high yields and enantioselectivities (57 to >99%, 88-94% ee) [81]. The use of molecular sieves turned out to be critical and significantly improved both the yields and enantioselectivities. 

Tan also found that guanidine 21, acting as a base to activate the o [3], X [3] tautomers of diaryl phosphine oxides, catalyzes the asymmetric phospha-Michael reachon of aryl nitroalkenes (Scheme 5.42) [76]. He later employed 21 to realize highly enantioselective Michael additions of dithiomalonate and 3-keto thioesters with a range of acceptors, including maleimides, cyclic enones, furanone, and acyclic 1,4-dicarbonylbutenes [77]. 

Under optimized conditions, the 83-catalyzed (1 mol% loading) Michael addition of acetylacetone to various aryl nitroalkenes as well as alkyl nitroalkenes proceeded in good to excellent yields (80-97%) and enantioselechvities (82-99%) of the desired adducts 1-5 (Scheme 6.93). The authors also reported the successful enantioselective Michael addihon of l,3-diphenylpropane-l,3-dione (adduct in... 

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