Big Chemical Encyclopedia

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

Articles Figures Tables About

Synthesis of Michael acceptor

Condensation of Enolates with Carbonyl Compounds Synthesis of Michael Acceptors... [Pg.565]

The stereochemical trends discussed above are not limited to a, yS-unsaturated carbonyl compounds other Michael acceptors such as nitroalkenes and unsaturated phosphane oxides display similar behavior. A representative example for the nitroalkene class of Michael acceptors is shown with substrate 70 in Scheme 6.13 [28]. The best results were thus obtained for arylcuprates. Other organocuprates were much less selective, which severely restricts their application in organic synthesis. [Pg.196]

In the early 1970s Stetter and co-workers succeeded in transferring the concept of the thiazolium catalyzed nucleophilic acylation to the substrate class of Michael acceptors (Stetter 1976 Stetter and Schreck-enberg 1973). Since then, the catalytic 1,4-addition of aldehydes 6 to an acceptor bearing an activated double bond 131 carries his name. The Stetter reaction enables a new catalytic pathway for the synthesis of 1,4-bifunctional molecules 132, such as 1,4-diketones, 4-ketoesters and 4-ketonitriles (Stetter and Kuhlmann 1991 for a short review, see Christmann 2005). The reaction can be catalyzed by a broad range of thiazolium salts. Stetter and co-workers found the benzyl-substituted thiazolium salt 86a to give the best results for the addition of aliphatic aldehydes, whereas 86b and 86c were chosen for the addition of aromatic aldehydes. Any one of these three was found to be suitable for additions with heterocyclic aldehydes. Salt 86d was utilized with a, )-unsaturated esters (Fig. 15). [Pg.104]

In essence, the ideology of this synthesis is similar to that employed in the Robinson annulation. In fact, here again the carbanionic intermediate 99 (formed upon the initial addition of arylmagnesium cuprate reagent 100 at the double bond of Michael acceptor 98) is treated with a carbon electrophile (allyl bromide) to give the final adduct 97 with two new C-C bonds. The only essential difference lies in the fact that the quenching of the enolate intermediate 99 with the electrophile occurs as an intermolecular reaction (in contrast to the Robinson annulation where this step proceeds intramolecularly). [Pg.88]

Indole synthesis. This Michael acceptor reacts with o-lithio-N-Boc-aniline. The product undergoes a sila-Pummerer rearrangement to induce ring closure. Indoles are obtained on elimination of the [PhSH] element. [Pg.71]

Hydroacylation of Michael acceptors. The organotetracarbonylferrates obtained by alkylation of disodium tetracarbonylferrate undergo insertion reactions with Michael-type acceptors to give eventually y-keto esters, ketones, and nitriles. The last example shows an interesting synthesis of a cyclopentanone by an intramolecular insertion reaction. ... [Pg.113]

NHC-catalyzed reactions are unique in organic synthesis, and very useful for the construction of carbon-carbon bonds. Great success has been made for the NHC-catalyzed benzoin condensation, Stetter reactions, and a -d Umpolung reactions in the past decades. NHC catalysis has also hnd application in many other reactions, such as umpolung of Michael acceptors, Morita-Baylis-Hilman reaction, Michael additions, redox reaction, and reactions of ketenes. With the rapid development of NHC catalysis, more reactions will surely be found, and the wide applications in organic synthesis could be expected. [Pg.262]

A chemoselective synthesis of tetrasubstituted furans has been accomplished using an intramolecular Wittig reaction as the key step. The presence of an additional electron-withdrawing group in the a-position of Michael acceptors controlled the chemoselectivities of the phosphorus ylides presumed to be involved. Mechanistic studies by DFT calculations were carried out to understand the origin of the chemoselectivity observed. [Pg.366]

Aldehydes and ketones are useM building blocks in organic synthesis. The direct a-C-H substitutions of carbonyl compounds are well known. However, selective P-C(sp )-H functionalization remains rare. The MacMillan group introduced Site activation model by dual aminocatalysis and photocatalysis, opening up a practical synthetic route to P-substituted aldehydes and ketones (Scheme 3.25). With this novel strategy, radical-radical coupling of enaminyl radical with electron-poor cyanobenzene radical anion can elegantly produce P-aiylated aldehydes and ketones [74]. A recombination of enaminyl radical with imine anion radical was also developed [75]. In the presence of Michael acceptors, radical addition of enaminyl radical to electron-deficient alkenes affords P-alkylated aldehydes [76]. [Pg.85]

Synthesis You will see that there are problems in both the routes found by the analysis. For route a it is known that malonate attacks exclusively the less hindered side of some Michael acceptors ... [Pg.100]

Vinylpyridine (23) came into prominence around 1950 as a component of latex. Butadiene and styrene monomers were used with (23) to make a terpolymer that bonded fabric cords to the mbber matrix of automobile tires (25). More recendy, the abiUty of (23) to act as a Michael acceptor has been exploited in a synthesis of 4-dimethylaminopyridine (DMAP) (24) (26). The sequence consists of a Michael addition of (23) to 4-cyanopyridine (15), replacement of the 4-cyano substituent by dimethylamine (taking advantage of the activation of the cyano group by quatemization of the pyridine ring), and base-cataly2ed dequatemization (retro Michael addition). 4-r)imethyl aminopyri dine is one of the most effective acylation catalysts known (27). [Pg.326]

Regiooomreiied synthesis of live membered mgs from silylallenes and Michael acceptors in the presence of TICI4... [Pg.85]

The Barton-Zard (BZ) pyrrole synthesis is similar both to the van Leusen pyrrole synthesis that uses Michael acceptors and TosMlC (Section 6.7) and the Montforts pyrrole synthesis using a,P-unsaturated sulfones and alkyl a-isocyanoacetates." An alternative to the use of the reactive nitroalkenes 1 is their in situ generation from P-acetoxy nitroalkanes, which are readily prepared via the Henry reaction between an aldehyde and a nitroalkane followed by acetylation. Examples are shown later. [Pg.70]

Nitroalkenes are shown to be effective Michael acceptor B units In three sequential re fA + B + C couplingi in one reaction vessel. The sequence is initialed by enolate nucleophiles fA and is terminated by aldehydes or acrylate electrophiles fC. The utility of this protocol is for rapid assembly of complex stnictures from simple and readily available components. A short total synthesis of a pyrroLmdine alkaloid is presented in Scheme 10.16. ... [Pg.349]

See other pages where Synthesis of Michael acceptor is mentioned: [Pg.565]    [Pg.244]    [Pg.565]    [Pg.244]    [Pg.5]    [Pg.6]    [Pg.76]    [Pg.204]    [Pg.253]    [Pg.95]    [Pg.173]    [Pg.341]    [Pg.180]    [Pg.44]    [Pg.27]    [Pg.310]    [Pg.277]    [Pg.279]    [Pg.303]    [Pg.208]    [Pg.208]    [Pg.420]    [Pg.318]    [Pg.133]    [Pg.575]    [Pg.296]    [Pg.70]    [Pg.270]   
See also in sourсe #XX -- [ Pg.565 ]



SEARCH



Michael acceptor

Michael synthesis

© 2024 chempedia.info