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Nitroalkenes Michael addition acceptors

The mechanism is presumed to involve a pathway related to those proposed for other base-catalyzed reactions of isocyanoacetates with Michael acceptors. Thus base-induced formation of enolate 9 is followed by Michael addition to the nitroalkene and cyclization of nitronate 10 to furnish 11 after protonation. Loss of nitrous acid and aromatization affords pyrrole ester 12. [Pg.71]

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). ... [Pg.141]

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]. [Pg.102]

In the presence of thiourea catalyst 122, the authors converted various (hetero) aromatic and aliphatic trons-P-nitroalkenes with dimethyl malonate to the desired (S)-configured Michael adducts 1-8. The reaction occurred at low 122-loading (2-5 mol%) in toluene at -20 to 20 °C and furnished very good yields (88-95%) and ee values (75-99%) for the respective products (Scheme 6.120). The dependency of the catalytic efficiency and selectivity on both the presence of the (thio) urea functionality and the relative stereochemistry at the key stereogenic centers C8/C9 suggested bifunctional catalysis, that is, a quinuclidine-moiety-assisted generation of the deprotonated malonate nucleophile and its asymmetric addition to the (thio)urea-bound nitroalkene Michael acceptor [279]. [Pg.264]

The conjugate addition of phosphorus nucleophiles of various oxidation states and in neutral or metallated form constitutes an efficient and well-known method for C—P bond formation [30]. In the case of phosphanes as nucleophiles especially, the corresponding phosphane-borane adducts have been used in 1,4-additions to Michael acceptors. Following the idea to use a chirally modified phosphorus nucleophile in asymmetric Michael additions to aromatic nitroalkenes, we synthesized the new enantiopure phospite 45 starting from TADDOL (44) with nearly quantitative yield. Due to the C2 symmetry, of the... [Pg.11]

Further applications of the chiral ammonium bifluoride-catalyzed enantioselective Michael addition of silyl nitronates has been shown in the reactions with nitroalkenes as a Michael acceptor (Scheme 9.17). These studies were started by examining the reaction of nitropropane-derived silyl nitronate 23b with P-nitrostyrene, using the chiral quaternary ammonium bifluoride (R,.R)-6d. When P-nitrostyrene was treated with 23b (1.2 equiv.) in the presence of (K,f )-6d (2mol%) in THF at — 78 °C, the... [Pg.202]

The bis-prolinol-derived phenol (156) has been designed to facilitate the formation of heterodinuclear complexes based upon the large difference in pKH of the phenolic OH group and the tertiary OH groups. The first examples of its application involve hydroxyacetophenones (157) as donors in the asymmetric Michael addition to nitroalkene acceptors (158) the best stereocontrol was observed with a zinc- magnesium dinuclear complex, where enantiomeric excesses ranged up to 92% for the major anti diastereoisomer (159).212... [Pg.358]

The conjugate system of the C-2 nitroalkenes should posses some interesting chemical reactivity and it should be an excellent Michael reaction acceptor with reactive nucleophiles. Moreover, the steric effect of the bulky 1,6-anhydro ring should be similar to that of levoglucosenone. As a consequence, nitroalkenes are excellent precursors for the stereoselective introduction of an additional sugar moiety at C-2 with subsequent additional functional group such as nitromethylene or its reduced/acetylated analog. Moreover, this unsaturated C-2 functionality additionally fixes the conformation of the system and most importantly sterically hinders the P-D-face of both enone molecules. [Pg.6]

Acceptor-substituted alkenes that are employed as substrates in Michael additions include a./l-unsaturated ketones (for example, see Figure 10.59), a,/3-unsaturated esters (Figure 10.60), and a,/3-unsaturatcd nitriles (Figure 10.61). The corresponding reaction products are bifunctional compounds with C=0 and/or C=N bonds in positions 1 and 5. Analogous reaction conditions allow Michael additions to vinyl sulfones or nitroalkenes. These reactions lead to sulfones and nitro compounds that carry a C=0 and/or a O N bond at the C4 carbon. [Pg.429]

SMP enamines have a very broad range of applications as d synthons. Cyclohexanone SMP enamine can be used for efficient Michael additions to nitroalkenes, Knoevenagel acceptors, and to a nitroallylic ester in a [3 + 3] carbocyclization with excellent stereoselectivities (eq 1). The synthesis of y-oxo-a-amino acids using SMP enamines has been developed (eq 2). ... [Pg.401]

Oxa- and aza-Michael additions followed by intramolecular cyclizations occur when propargyl alcohols are treated with a, -unsaturated nitroalkenes in the presence of t-BuOK in THF. Although exo-3-methylene tetrahydrofurans are usually the major products of these reactions, 3,4-dihydropyrans are also obtained in some cases, depending upon the substituents present within the donor and acceptor. Equation 59 shows the results of the reactions of propargyl alcohol with four nitroalkenes. Similar reactions of methyl propargylamine with these same acceptors give exclusively 3-methylenepyrrolidines."... [Pg.360]

There is also an example of a one-pot reaction in which an initial Michael addition of a functionalized aldehyde containing an olefin moiety at the convenient position to a nitroalkene as Michael acceptor was followed by the formation of a 1,3-dipole and a subsequent intramolecular [3 + 2] cycloaddition (Scheme 7.12). In this case, ethyl 7-oxo-2-heptenoate was reacted with a series of nitroalkenes using 31a as catalyst and next A -hydroxylphenylamine was added to the reaction mixture, promoting the formation of the corresponding... [Pg.255]

Michael additions are among the most important organocatalytic transformations.The ability of prolinol silyl ethers to form enamines, diena-mines, trienamines or iminium ions makes them appealing in a number of chemical transformations based on addition of a nucleophile to an a,p-unsaturated carbonyl compound or other Michael acceptor. The first example of Michael addition catalysed by a prolinol silyl ether was published by Hayashi and coworkers. Aliphatic aldehydes added to a range of aryl-substituted nitroalkenes. Prolinol silyl ether Cla presumably formed chiral enamines with aldehydes. The F-anh-enamine was formed and it reacted with nitroalkene via an acyclic synclinal transition state, originally proposed... [Pg.166]

NitroalkeneS as Michaal Acceptors. Being extremely attractive, the Michael addition of aldehydes to nitroalkenes offers a direct access to the synthesis... [Pg.147]

Nitroalkenes as Acceptors. The organocatalytic asymmetric Michael addition of activated methylenes to nitroalkenes is an important carbon-carbon bond-forming reaction, which provides access to synthetically useful enantioen-riched nitroalkanes. In 2003, Takemoto and co-workers [77] disclosed the first highly... [Pg.168]


See other pages where Nitroalkenes Michael addition acceptors is mentioned: [Pg.70]    [Pg.85]    [Pg.224]    [Pg.224]    [Pg.210]    [Pg.211]    [Pg.279]    [Pg.13]    [Pg.5]    [Pg.166]    [Pg.1241]    [Pg.1923]    [Pg.37]    [Pg.40]    [Pg.137]    [Pg.140]    [Pg.142]    [Pg.250]    [Pg.294]    [Pg.302]    [Pg.308]    [Pg.54]    [Pg.331]    [Pg.351]    [Pg.227]    [Pg.30]    [Pg.150]    [Pg.158]    [Pg.191]    [Pg.418]    [Pg.423]    [Pg.119]   


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Michael addition acceptors

Michael addition nitroalkenes

Nitroalkene

Nitroalkenes

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