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Amine catalysis Michael addition

More recently, Jang et al. reported a cascade Michael/a-oxyamination reaction of malonates, enals, and a TEMPO-type stable radical by combining iminium catalysis, enamine catalysis, and photoredox catalysis [56], The reaction unified a secondary amine-catalyzed Michael addition of diethyl malonates to enals and a following supported Ru-based photoredox-SOMO catalysis involving a radical trapping event of TEMPO (Scheme 9.61), generating the chiral a, 3-functionalized propanal derivatives with high reactivity and excellent selectivity. [Pg.403]

Apart from base catalysis, Michael addition of thiols can also be performed using nucleophUic catalysis. Primary and secondary amines and certain phosphines are the most commonly used catalysts. Nucleophile mediated thiol-Michael addition reactions have extensively been studied. The nucleophiles attack the Michael acceptors to generate a carbanion, which abstracts protons from thiols to generate thiolate anions, which in turn propagate the reaction (Scheme 1.16) [56]. NucleophUicity of the catalyst plays a crucial role in the kinetics of the nucleophile-based thiol-Michael addition reactions, as stronger the nucleophile, more easily the thiolate anion will be generated. [Pg.19]

Lipases are the enzymes for which a number of examples of a promiscuous activity have been reported. Thus, in addition to their original activity comprising hydrolysis of lipids and, generally, catalysis of the hydrolysis or formation of carboxylic esters [107], lipases have been found to catalyze not only the carbon-nitrogen bond hydrolysis/formation (in this case, acting as proteases) but also the carbon-carbon bond-forming reactions. The first example of a lipase-catalyzed Michael addition to 2-(trifluoromethyl)propenoic acid was described as early as in 1986 [108]. Michael addition of secondary amines to acrylonitrile is up to 100-fold faster in the presence of various preparations of the hpase from Candida antariica (CAL-B) than in the absence of a biocatalyst (Scheme 5.20) [109]. [Pg.113]

However, Michael addition has been successfully performed in recent years with the use of nucleophilics catalysis (fluoride anion or amines) (132) (Scheme 3.195). [Pg.615]

During the coverage period of this chapter, reviews have appeared on the following topics reactions of electrophiles with polyfluorinated alkenes, the mechanisms of intramolecular hydroacylation and hydrosilylation, Prins reaction (reviewed and redefined), synthesis of esters of /3-amino acids by Michael addition of amines and metal amides to esters of a,/3-unsaturated carboxylic acids," the 1,4-addition of benzotriazole-stabilized carbanions to Michael acceptors, control of asymmetry in Michael additions via the use of nucleophiles bearing chiral centres, a-unsaturated systems with the chirality at the y-position, and the presence of chiral ligands or other chiral mediators, syntheses of carbo- and hetero-cyclic compounds via Michael addition of enolates and activated phenols, respectively, to o ,jS-unsaturated nitriles, and transition metal catalysis of the Michael addition of 1,3-dicarbonyl compounds. ... [Pg.419]

In conjunction with the Knoevenegal reaction, a Michael addition (Figure 22) reaction was also described by Jaekson et al. using the same siliea supported tertiary amines for the catalysis of conjugate addition of nitroalkenes to a,y9-unsaturated carbonyl compounds. At a flow rate of 6.6 pL/min the eonversion rate was constant with a high yield for 7 hours reaction time. [Pg.413]

The majority of the Michael-type conjugate additions are promoted by amine-based catalysts and proceed via an enamine or iminium intermediate species. Subsequently, Jprgensen et al. [43] explored the aza-Michael addition of hydra-zones to cyclic enones catalyzed by Cinchona alkaloids. Although the reaction proceeds under pyrrolidine catalysis via iminium activation of the enone, and also with NEtj via hydrazone activation, both methods do not confer enantioselectivity to the reaction. Under a Cinchona alkaloid screen, quinine 3 was identified as an effective aza-Michael catalyst to give 92% yield and 1 3.5 er (Scheme 4). [Pg.151]

Keywords Absolute configuration, Amines, Amino acids, Carbenes, Cascade reactions, 2-chloro-2-cyclopropylideneacetates. Combinatorial libraries. Cycloadditions, Cyclobutenes, Cyclopropanes, Diels-Alder reactions. Heterocycles, Michael additions. Nitrones, Nucleophilic substitutions, Peptidomimetics, Palladium catalysis. Polycycles, Solid phase synthesis, Spiro compounds. Thiols... [Pg.149]

The Takemoto group synthesized a series ofdiaminocyclohexane-based thiourea derivatives (e.g., 12, 40, 57, and 58) for catalysis of the Michael addition [149-152] ofmalonates to trons-j3-nitrostyrenes (Figure 6.18) [129, 207]. In the model, Michael addition of diethyl malonate to trons-]3-nitrostyrene at room temperature and in toluene as the solvent tertiary amine-functionalized thiourea 12 (10mol% loading) was identified to be the most efficient catalyst in terms of catalytic activity (86%... [Pg.203]

Scheme 6.102 Bifunctional catalysis with primary amine thiourea 99 Proposed transition states to explain the onfi-diastereoselectivity (A) and the syn- diastereoselectivity (B) of the Michael addition of both acylic and cyclic ketones to frans-P-nitrostyrene. Scheme 6.102 Bifunctional catalysis with primary amine thiourea 99 Proposed transition states to explain the onfi-diastereoselectivity (A) and the syn- diastereoselectivity (B) of the Michael addition of both acylic and cyclic ketones to frans-P-nitrostyrene.
A much more generally useful process was developed by Robinson to prepare cyclohexenones from ketones and methyl vinyl ketone or its derivatives. Again, because good compilations of the Robinson annulation exist,8 only a few examples are given here. The first step of this process, the Michael addition, is carried out by normal base catalysis, while the second step, the aldol condensation, is best accomplished by the use of a secondary amine to form the enamine of the acyclic ketone, which then cyclizes... [Pg.6]

Hypothesizing that primary amine catalysts, due to their reduced steric requirements, might be suitable for the activation of ketones, we studied various salts of a-amino acid esters. (For pioneering use of primary amine salts in asymmetric iminium catalysis involving aldehyde substrates, see Ishihara and Nakano 2005 Sakakura et al. 2006 for the use of preformed imines of a, 3-unsaturated aldehydes and amino acid esters in diastereoselective Michael additions, see Hashimot et al. 1977.) We have developed a new class of catalytic salts, in which both the cation and the anion are chiral. In particular, valine ester phosphate salt 35 proved to be an active catalyst for the transfer hydrogenation of a variety of a, 3-unsaturated ketones 36 with commercially available Hantzsch ester 11 to give saturated ketones 37 in excellent enantiose-lectivities (Scheme 28 Martin and List 2006). [Pg.33]

Chen and coworkers have reported a new domino Michael-Michael addition reaction between a,a-dicyanoalkene [26] derived from cyclohexanone and benzyli-deneacetone, resulting in a stepwise [4 + 2]-type cycloaddition to afford almost enantiopure bicyclic adduct 15. In contrast to the completely inert function of secondary ammonium salt, a primary amine, 9-amino-9-deoxyepiquinine lo [27], in combination with trifluoroacetic acid, was found to be highly efficient in the activation of the a, 3-unsaturated ketone by tandem iminium-enamine catalysis (Scheme 10.21) [28],... [Pg.313]

A variety of a,a-dicyanoalkenes derived from aryl ketones have also been extensively explored under the same catalytic conditions, and in general the vinylogous Michael adducts were obtained due to the steric hindrance in the following enamine catalysis by primary amine lo [28]. Nevertheless, an interesting domino Michael-Michael-retro-Michael reaction was observed for a,a-dicyanoalkenes derived from acetophenone and propiophenone, giving a facile process to chiral 2-cyclohexen-l-one derivatives. It was noteworthy that a kinetic resolution was observed in the intramolecular Michael addition step (Scheme 10.22). [Pg.313]

Michael addition of the aromatic amines to the vinyl ketones followed by subsequent cyclization and aromatization under catalysis by silica gel impregnated with indium(III)chloride has been successfully achieved under MWI to give the corresponding quinolines. Conventional heating produced polymerization of the vinyl ketones that drastically reduced the yield (00TL531). Thus, quinolines 273 were prepared in 55-87% yields by reacting anilines 271 with alkyl vinyl ketones 272 by irradiation in an MW oven for 5-12min (Scheme 57). [Pg.37]

Several other stereoselective transformations have been presented that afford ehiral eyelohexenones, ° ° cyclohexadienones, or cyclopenta-nones. °° For instanee, tandem Michael addition/Wittig reaction of (3-carbo q -2-oxopropylidene) triphenylphosphorane and a,p-unsaturated aldehydes has been developed by employing catalysis by newly designed bullq chiral secondary amine C10. ° The multifunctional 6-carbo3gr-cyclohex-2-en-l-ones were generally obtained in excellent diastereo- and enantioselectivities (Seheme 8.23). [Pg.178]

Scheme 1.19 Intramolecular Michael addition using secondary amine catalysis... [Pg.15]

See other pages where Amine catalysis Michael addition is mentioned: [Pg.329]    [Pg.329]    [Pg.319]    [Pg.569]    [Pg.88]    [Pg.324]    [Pg.235]    [Pg.49]    [Pg.10]    [Pg.321]    [Pg.5]    [Pg.249]    [Pg.36]    [Pg.186]    [Pg.382]    [Pg.1232]    [Pg.211]    [Pg.300]    [Pg.5]    [Pg.363]    [Pg.95]    [Pg.256]    [Pg.304]    [Pg.712]    [Pg.125]    [Pg.712]    [Pg.79]    [Pg.93]    [Pg.329]   


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