Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Electrophilic addition reactions Enamines

Diels-Alder reaction, 493 El reaction, 391-392 ElcB reaction, 393 E2 reaction, 386 Edman degradation, 1032 electrophilic addition reaction, 147-148. 188-189 electrophilic aromatic substitution, 548-549 enamine formation, 713 enol formation, 843-844 ester hydrolysis, 809-811 ester reduction, 812 FAD reactions. 1134-1135 fat catabolism, 1133-1136 fat hydrolysis, 1130-1132 Fischer esterification reaction, 796 Friedel-Crafts acylation reaction, 557-558... [Pg.1305]

Although the enamine (30) underwent addition reaction with ethyl azido-dicarboxylate, it failed to add another mole of jS-nitrostyrene. In a similar manner the morpholine enamine of 2-methylcyclohexanone also failed to react with this olefin, i.e., jS-nitrostyrene, which is undoubtedly due to the 1,3-diaxial interaction between the methyl group and the incoming electrophile in the transition state. [Pg.18]

Scheme 2.23 provides some examples of conjugate addition reactions. Entry 1 illustrates the tendency for reaction to proceed through the more stable enolate. Entries 2 to 5 are typical examples of addition of doubly stabilized enolates to electrophilic alkenes. Entries 6 to 8 are cases of addition of nitroalkanes. Nitroalkanes are comparable in acidity to (i-ketocslcrs (see Table 1.1) and are often excellent nucleophiles for conjugate addition. Note that in Entry 8 fluoride ion is used as the base. Entry 9 is a case of adding a zinc enolate (Reformatsky reagent) to a nitroalkene. Entry 10 shows an enamine as the carbon nucleophile. All of these reactions were done under equilibrating conditions. [Pg.184]

Enamines also react with electrophilic alkenes to give conjugate addition products. The addition reactions of enamines of cyclohexanones show a strong preference for attack from the axial direction.319 This is anticipated on stereoelectronic grounds because the tt orbital of the enamine is the site of nucleophilicity. [Pg.193]

Ovchinnikov, V.V., Cherezov, S.V., Cherkasov, R.A., and Pudovik, A.N., Reactivity of cyclic and acyclic hydrophosphoryl compounds in reactions of electrophilic addition to ketene acetals and enamines, Zh. Obshch. Khim., 55,1244, 1985. [Pg.145]

Predictably, the reaction of A V-disubstituted enamines [26-29] and non-conju-gated unsaturated amines with dihalocarbenes results in the exclusive formation of the dihalocyclopropane derivatives (see Section 7.3). Dichlorocarbene inserts into the a-CH bond of Af-alkyldibenzo[6,/]azepines [16], in addition to the expected electrophilic addition to the C=C bond (see Sections 7.2 and 7.3). [Pg.350]

Another advantage of this method is that no catalyst is needed for the addition reaction this means that the base-catalyzed polymerization of the electrophilic olefin (i.e., a,j8-unsaturated ketones, esters, etc.) is not normally a factor to contend with, as it is in the usual base-catalyzed reactions of the Michael typCi It also means that the carbonyl compound is not subject to aldol condensation which often is the predominant reaction in base-catalyzed reactions. An unsaturated aldehyde can be used only in a Michael addition reaction when the enamine method is employed. [Pg.42]

There has been extensive research into electrophilic additions to 3-substituted-l,4-dihydropyridines, such as N-methyl-3-cyano-l,4-dihydropyridine 138, which readily undergoes addition across the more reactive enamine-like 5,6-alkene to give 2,3,5-trisubstituted-l,2,3,4-tetrahydropyridines (Scheme 38) <1998JOC2728, 2000CEJ1763, 2003TL8449>. In an unusual example, the reaction with sulfinyl chlorides and triethylamine results in the formation of the 1,4-dihydropyridine sulfoxide 139, where in the absence of an additional nucleophile, the iminium intermediate is deprotonated to yield the monosubstituted 1,4-dihydropyridine product 139. [Pg.192]

It is of great interest to compare this last value with the keto-enol equilibrium constant obtained similarly for acetone = 0.35 x 10-8). Indeed, in many enzyme-catalysed reactions, aldolisation for example, enamine formation is not rate-limiting, and the rate is usually controlled by subsequent electrophilic additions. Consequently, the rate depends on enamine reactivity and on the enamine concentration at equilibrium. Therefore, if one wants to compare the two processes, via enol and via enamine, in order to explain why the enamine route is usually preferred, the difference in equilibrium constants for enol and enamine formation must be taken into account. Data on ketone to enol and ketone to enamine equilibrium constants show that the enamine and enol concentrations are of similar magnitude even for relatively small concentrations of primary amine. Thereafter, since the enamine is much more reactive than the enol for reactions with electrophilic reagents (in a ratio of 4-6 powers of ten for proton addition), it can be easily understood why the amine-catalysed pathway is energetically more favourable. [Pg.70]

Electrophilic and nucleophilic substitution and addition reactions of enamines... [Pg.727]

Enamine catalysis using proline or related catalysts has now been applied to both intermolecular and intramolecular nucleophilic addition reactions with a variety of electrophiles. In addition to carbonyl compounds (C = O), these include imines (C = N) in Mannich reactions (List 2000 List et al. 2002 Hayashi et al. 2003a Cordova et al. 2002c ... [Pg.9]

Unstable azido compounds which have been obtained by addition of hydrazoic acid to enamines such as 181 are also thought to arise from an Adf processAlthough catalysis of an Adj reaction by protonation of the heterocyclic nitrogen atom in 181 is possible, and in fact the salt (182) was isolated from the reaction, the position of the azido group in the products (183-185) indicates that an electrophilic addition on the unprotonated enamine is the rate-limiting step. Conjugation of the nitrogen lone-pair with the diene chain could provide sufficient activation for such an addition. [Pg.129]

One of the most studied processes is the direct intermolecular asymmetric aldol condensation catalysed by proline and primary amines, which generally uses DMSO as solvent. The same reaction has been demonstrated to also occur using mechanochemical techniques, under solvent-free ball-milling conditions. This chemistry is generally referred to as enamine catalysis , since the electrophilic substitution reactions in the a-position of carbonyl compounds occur via enamine intermediates, as outlined in the catalytic cycle shown in Scheme 1.1. A ketone or an a-branched aldehyde, the donor carbonyl compound, is the enamine precursor and an aromatic aldehyde, the acceptor carbonyl compound, acts as the electrophile. Scheme 1.1 shows the TS for the ratedetermining enamine addition step, which is critical for the achievement of enantiocontrol, as calculated by Houk. ... [Pg.8]

An alternative means for effecting reaction at a side-chain depends on a prior electrophilic addition to the nitrogen this acidifies further the side-chain hydrogens, then deprotonation generates an enamine or an enamide, each being nucleophilic at the side-chain carbon the condensation of 4-picoline with benzal-dehyde using acetic anhydride illustrates this. [Pg.55]

Intramolecular nucleophilic addition reactions of enamines to suitable electrophiles placed y to the enamine nitrogen atom afford quinolizine derivatives. Examples of this strategy (Schemes 50... [Pg.543]

See other pages where Electrophilic addition reactions Enamines is mentioned: [Pg.112]    [Pg.64]    [Pg.63]    [Pg.63]    [Pg.107]    [Pg.309]    [Pg.151]    [Pg.375]    [Pg.375]    [Pg.302]    [Pg.1310]    [Pg.375]    [Pg.375]    [Pg.1310]    [Pg.944]    [Pg.899]    [Pg.899]    [Pg.85]    [Pg.18]    [Pg.19]    [Pg.37]    [Pg.56]    [Pg.62]   


SEARCH



Addition reactions electrophilic

Electrophiles Addition reactions

Enamine reaction

© 2024 chempedia.info