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Michael addition aldehydes

The cyclization of 5-oxonitriles offers an attractive route to 2-amino-4//-pyrans (Scheme 18) (78JHC57). The starting materials, a-benzoylcinnamonitriles, are available from benzoyl-acetonitrile and an aromatic aldehyde. Michael addition of ethyl cyanoacetate or malononitrile to the benzoylcinnamonitrile affords the oxonitrile and is followed by cyclization to the imine. The reaction proceeds at room temperature in the presence of either piperidine or sodium ethoxide. [Pg.758]

Keywords lithium ester enolate, 3,3-dimethyl butanoate, aromatic aldehyde, Michael addition, /2-hydroxy ester... [Pg.49]

Chemists usually learn about reactions according to fiinctional groups for example, How can I make an aldehyde and what reactions are known for aldehydes " This is clearly not a very good starting point for classifying reactions. The poor state of affairs in the definition of reaction types is further quite vividly illustrated by the fact that many chemical reactions are identified by being named after their inventor Diels-Alder reaction, Michael addition, Lobry-de Bruyn-van Ekenstein rear-... [Pg.172]

The decarboxylation of allyl /3-keto carboxylates generates 7r-allylpalladium enolates. Aldol condensation and Michael addition are typical reactions for metal enolates. Actually Pd enolates undergo intramolecular aldol condensation and Michael addition. When an aldehyde group is present in the allyl fi-keto ester 738, intramolecular aldol condensation takes place yielding the cyclic aldol 739 as a main product[463]. At the same time, the diketone 740 is formed as a minor product by /3-eIimination. This is Pd-catalyzed aldol condensation under neutral conditions. The reaction proceeds even in the presence of water, showing that the Pd enolate is not decomposed with water. The spiro-aldol 742 is obtained from 741. Allyl acetates with other EWGs such as allyl malonate, cyanoacetate 743, and sulfonylacetate undergo similar aldol-type cycliza-tions[464]. [Pg.392]

Stabilized anions exhibit a pronounced tendency to undergo conjugate addition to a p unsaturated carbonyl compounds This reaction called the Michael reaction has been described for anions derived from p diketones m Section 18 13 The enolates of ethyl acetoacetate and diethyl malonate also undergo Michael addition to the p carbon atom of a p unsaturated aldehydes ketones and esters For example... [Pg.901]

Addition of HCN to unsaturated compounds is often the easiest and most economical method of making organonitnles. An early synthesis of acrylonitrile involved the addition of HCN to acetylene. The addition of HCN to aldehydes and ketones is readily accompHshed with simple base catalysis, as is the addition of HCN to activated olefins (Michael addition). However, the addition of HCN to unactivated olefins and the regioselective addition to dienes is best accompHshed with a transition-metal catalyst, as illustrated by DuPont s adiponitrile process (6—9). [Pg.217]

These reversible reactions are cataly2ed by bases or acids, such as 2iac chloride and aluminum isopropoxide, or by anion-exchange resias. Ultrasonic vibrations improve the reaction rate and yield. Reaction of aromatic aldehydes or ketones with nitroparaffins yields either the nitro alcohol or the nitro olefin, depending on the catalyst. Conjugated unsaturated aldehydes or ketones and nitroparaffins (Michael addition) yield nitro-substituted carbonyl compounds rather than nitro alcohols. Condensation with keto esters gives the substituted nitro alcohols (37) keto aldehydes react preferentially at the aldehyde function. [Pg.100]

The versatility of this reaction is extended to a variety of aldehydes. The bisphenol derived from 2,6-di-/ f2 -butylphenol and furfural, (25) where R = furfuryl (13), is also used as an antioxidant. The utility of the 3,5-di-/ f2 -butyl-4-hydroxyben2yl moiety is evident in stabili2ets of all types (14), and its effectiveness has spurred investigations of derivatives of hindered alkylphenols to achieve better stahi1i2ing quaUties. Another example is the Michael addition of 2,6-di-/ f2 -butyl phenol to methyl acrylate. This reaction is carried out under basic conditions and yields methyl... [Pg.61]

Michael addition of aromatic or heterocyclic aldehydes (via cyanohydrins) to o. unsaturated systems. Also addilion of aliphatic aldehydes catalyzed by thiazoFium yKds... [Pg.364]

Conversion of aldehydes to ketones via cyanohydrin derivatives (ethers) by alkylation or Michael addition also used with sdyl ethers, dialtylamlnonitnies (see also Stetter reaction). [Pg.370]

RSSiMe3 [R = Me, Et, (-CH2-)3], Zn, Et20, 0-25°, 70-95% yield. This method is satisfactory for a variety of aldehydes and ketones and is also suitable for the preparation of 1,3-dithianes. Methacrolein gives the product of Michael addition rather than the thioacetal. The less hindered of two ketones is readily protected using this methodology. ... [Pg.198]

When the enamine is in conjugation with a carbonyl function, as in a-aminomethylene aldehydes (528,529), ketones (530), or esters (531), a Michael addition is found in vinylogous analogy to the reactions of amides. An application to syntheses in the vitamin A series employed a vinyl lithium compound (532). [Pg.424]

Reaction of tryptamine with simple ketones has not been widely explored. Acetone in the presence of benzoyl chloride has been reported to yield 2-benzoyl-1,1 -dimethyl-1,2,3,4-tetrahydro-j8-carbo-line. That the keto group is much less reactive than the aldehyde group is indicated by the fact that j8-keto aldehydes, in the form of their acetals or sodium salts, react with tryptamine at the aldehyde function to yield the conjugated enamine 24, which undergoes ring closure via an intramolecular Michael addition. The potentialities of this interesting modification of the Pictet-Spengler reaction have not yet been fuUy explored. [Pg.88]

Recently, the Michael addition of the optically active Q ,y-disubstituted tetronic acids 146c,e with a variety of Q ,/3-unsaturated aldehydes, ketones, esters, and nitriles was studied (Scheme 53) (99H1321). [Pg.140]

Various competitive reactions can reduce the yield of the desired Michael-addition product. An important side-reaction is the 1,2-addition of the enolate to the C=0 double bond (see aldol reaction, Knoevenagel reaction), especially with a ,/3-unsaturated aldehydes, the 1,2-addition product may be formed preferentially, rather than the 1,4-addition product. Generally the 1,2-addition is a kinetically favored and reversible process. At higher temperatures, the thermodynamically favored 1,4-addition products are obtained. [Pg.202]

Fermenting baker s yeast also catalyzes the 1,4-addition of a formal trifluoroethanol-d1-synthon to a,/i-unsaturated aldehydes, to give optically active l,l,l-trifluoro-2-hydroxy-5-alka-nones52. Presumably, the mechanism involves oxidation of the alcohol to the corresponding aldehyde followed by an umpolung step with thiamine pyrophosphate and Michael addition to the a,/i-unsaturated aldehyde. For example, l,l,l-trifluoro-2-hydroxy-5-hexanone (yield 26%, ee 93%) is thus obtained from trifluoroethanol and l-bnten-3-one. [Pg.677]

The use of hydrazone or enamine derivatives of ketones or aldehydes offers the advantage of stcreocontrol via chelated azaenolates. Extremely useful synthetic methodology, with consistently high anti selectivity, has been developed using azaenolates based on (S)- or (R)-l-amino-2-(methoxymethyl)pyrrolidine (SAMP or RAMP)51 58 (Enders method, see Section 1.5.2.4.2.2.3.). An example which illustrates the efficiency of this type of Michael addition is the addition of the lithium azaenolate of (5 )-l-amino-2-(methoxymethyl)pyrrolidine (SAMP) hydrazone of propanal (R = II) to methyl (E )-2-butenoate to give the nub-isomer (an 1 adduct) in 80% yield with a diastereomeric ratio > 98 2,... [Pg.959]

The use of enantiomerically pure (R)-5-menthyloxy-2(5.//)-furanone results in lactone enolates, after the initial Michael addition, which can be quenched diastereoselectively trans with respect to the /J-substituent. With aldehydes as electrophiles adducts with four new stereogenic centers arc formed with full stereocontrol and the products are enantiomerically pure. Various optically active lactones, and after hydrolysis, amino acids and hydroxy acids can be synthesized in this way317. [Pg.994]

The base-catalyzed Michael addition of 2-chlorocyanoacetate to a,p-unsaturated ketones or aldehydes affords 5-oxopentenenitrile derivatives. In the presence of anhydrous HCl, these compounds cyclize to yield 2-chloro-3-pyridinecarboxylates. The process is highly regiospecific and usefiil in the synthesis of 2,Xdisubstituted pyridines <95T(51)13177>. [Pg.223]

The y-keto nitriles shown in Table I were prepared by the cyanide-catalyzed procedure described here. This procedure is generally applicable to the synthesis of y-diketones, y-keto esters, and other y-keto nitriles. However, the addition of 2-furancarboxaldehyde is more difficult, and a somewhat modified procedure should be employed. Although the cyanide-catalyzed reaction is generally limited to aromatic and heterocyclic aldehydes, the addition of aliphatic aldehydes to various Michael acceptors may be accomplished in the presence of thioazolium ions, which are also effective catalysts for the additions. [Pg.165]

Although the unsaturated nitrile oxides 124 can be prepared via the aldoxime route (see Scheme 8), the older procedure suffers from the disadvantage that a tenfold excess of allyl alcohol and two additional steps are required when compared to Scheme 15. Therefore, unsaturated nitro ether 123 that can be prepared by condensation of an aldehyde 120 and a nitro alkane followed by Michael addition of alcohol 122, was a useful precursor to nitrile oxide 124 [381. The nitrile oxide 124 spontaneously cyclized to ether 125. This procedure is particularly suitable for the synthesis of tetrahydrofurans (125a-h) and tetrahydropyrans (125i-k) possessing Ar substituents in 72-95% yield (Table 12). The seven-membered ether 1251 was obtained only in 30% yield on high dilution. The acetylenic nitro ether 126 underwent INOC reaction to provide the isoxazole 127. [Pg.18]

Et2Zn also participates in the reductive coupling as a formal hydride source. Results for the Ni-catalyzed, Et2Zn-promoted homoallylation of carbonyl compounds with isoprene are summarized in Table 7 [30]. Et2Zn is so reactive that for the reaction with reactive aromatic aldehydes it causes direct ethylation of aldehydes, and the yields of homoallylation are diminished (runs 1 and 2). Unsaturated aldehydes seem to be subject to the Michael addition of Et2Zn. Accordingly, for the reaction with cinnamaldehyde, none of the expected homoallylation product is produced instead, the 1,4-addition product of Et2Zn, 3-phenylpentanal is produced exclusively (run 3). [Pg.200]

Domino transformations combining two consecutive anionic steps exist in several variants, but the majority of these reactions is initiated by a Michael addition [1]. Due to the attack of a nucleophile at the 4-position of usually an enone, a reactive enolate is formed which can easily be trapped in a second anionic reaction by, for example, another n,(5-urisalurated carbonyl compound, an aldehyde, a ketone, an inline, an ester, or an alkyl halide (Scheme 2.1). Accordingly, numerous examples of Michael/Michael, Michael/aldol, Michael/Dieckmann, as well as Michael/SN-type sequences have been found in the literature. These reactions can be considered as very reliable domino processes, and are undoubtedly of great value to today s synthetic chemist... [Pg.48]

Using a cyclic enone 2-29b and an ester-TMS enolate 2-30 in the presence of catalytic amounts of SmI2(THF)2, the Michael addition and the Mukaiyama/aldol reaction with the added aldehyde 2-32 led to the diastereomeric adducts 2-33 and 2-34 via 2-31 with a dr =80 20 to 98 2 and 70-77% yield (Scheme 2.7) [13]. The major product is the trans-l,2-disubstituted cycloalkanone. [Pg.53]

This finding is also in agreement with another three-component Michael/aldol addition reaction reported by Shibasaki and coworkers [14]. Here, as a catalyst the chiral AlLibis[(S)-binaphthoxide] complex (ALB) (2-37) was used. Such hetero-bimetallic compounds show both Bronsted basicity and Lewis acidity, and can catalyze aldol [15] and Michael/aldol [14, 16] processes. Reaction of cyclopentenone 2-29b, aldehyde 2-35, and dibenzyl methylmalonate (2-36) at r.t. in the presence of 5 mol% of 2-37 led to 3-hydroxy ketones 2-38 as a mixture of diastereomers in 84% yield. Transformation of 2-38 by a mesylation/elimination sequence afforded 2-39 with 92 % ee recrystallization gave enantiopure 2-39, which was used in the synthesis of ll-deoxy-PGFla (2-40) (Scheme 2.8). The transition states 2-41 and 2-42 illustrate the stereochemical result (Scheme 2.9). The coordination of the enone to the aluminum not only results in its activation, but also fixes its position for the Michael addition, as demonstrated in TS-2-41. It is of importance that the following aldol reaction of 2-42 is faster than a protonation of the enolate moiety. [Pg.53]

Scheme 2.36. Synthesis of bicycloillicinone aldehyde (2-158) by a domino Michael addition/epoxide opening. Scheme 2.36. Synthesis of bicycloillicinone aldehyde (2-158) by a domino Michael addition/epoxide opening.

See other pages where Michael addition aldehydes is mentioned: [Pg.318]    [Pg.123]    [Pg.40]    [Pg.145]    [Pg.147]    [Pg.80]    [Pg.328]    [Pg.755]    [Pg.759]    [Pg.137]    [Pg.323]    [Pg.288]    [Pg.129]    [Pg.77]    [Pg.323]    [Pg.330]   
See also in sourсe #XX -- [ Pg.26 ]

See also in sourсe #XX -- [ Pg.37 ]

See also in sourсe #XX -- [ Pg.480 , Pg.491 ]




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Addition aldehydes

Aldehydes Michael addition acceptors

Aldehydes Michael additions, sulfones

Enamine catalysis Michael addition, aldehyde acceptors

Enolizable aldehydes, Michael addition

Michael addition aldehyde substrates

Michael addition of aldehydes to nitroolefins

Michael additions of aldehydes

Michael additions of aliphatic aldehydes

Michael aldehyde

Quinones, Michael addition, aldehyde

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