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Aldehydes nitroolefins

The regiochemical control of Pd-catalyzed hydnde transfer reacdon is much more effeedve than that of the radical denitradon, as Shown in Eq 7 98 The base-catalyzed reacdon of nitroolefins with aldehydes followed by denitradon provides a new syntbedc method of homoallyl aicohols fEq 7 99 Exomethylene compounds are obtined by denitradon of cyclic allylic nino compounds with PdfO, HGO-,H and Et- N fEq 7 100 ... [Pg.213]

The regiochemical control of Pd-catalyzed hydride transfer reaction is much more effective than that of the radical denitration, as shown in Eq. 7.98. The base-catalyzed reaction of nitroolefins with aldehydes followed by denitration provides a new synthetic method of homoallyl alcohols (Eq. 7.99).140 Exomethylene compounds are obtained by denitration of cyclic allylic nitro compounds with Pd(0), HC02H and Et3N (Eq. 7.100).140b... [Pg.213]

For example, the 0,C-trisaccharide 153 was obtained by a Henry reaction of nitro disaccharide 151 and sugar aldehyde 150 followed by the dehydration of (3-nitro alcohol 152 and reduction of the resulting nitroolefin, to give nitro sugar 153. Finally, a radical elimination of the nitro group afforded the target 154 (Scheme 47).105... [Pg.192]

The pure ketone has a 1.5240 and a boiling point of 128-130°/14 mm., 150°/30 mm. Insufficient removal of o-meth-oxybenzaldehyde will cause the refractive index to be high to the extent of about 0.0003 for each per cent present. The use of distilled nitroolefin eliminates the aldehyde, but this advantage is offset by the distillation hazard and slightly lower over-all yields. [Pg.77]

The enantioselective aldol and Michael additions of achiral enolates with achiral nitroolefins and achiral aldehydes, in the presence of chiral lithium amides and amines, was recently reviewed354. The amides and amines are auxiliary molecules which are released on work-up (equation 90 shows an example of such a reaction). [Pg.731]

This topological rule readily explained the reaction product 211 (>90% stereoselectivity) of open-chain nitroolefins 209 with open-chain enamines 210. Seebach and Golinski have further pointed out that several condensation reactions can also be rationalized by using this approach (a) cyclopropane formation from olefin and carbene, (b) Wittig reaction with aldehydes yielding cis olefins, (c) trans-dialkyl oxirane from alkylidene triphenylarsane and aldehydes, (d) ketenes and cyclopentadiene 2+2-addition, le) (E)-silyl-nitronate and aldehydes, (f) syn and anti-Li and B-enolates of ketones, esters, amides and aldehydes, (g) Z-allylboranes and aldehydes, (h) E-alkyl-borane or E-allylchromium derivatives and aldehydes, (i) enamine from cyclohexanone and cinnamic aldehyde, (j) E-enamines and E-nitroolefins and finally, (k) enamines from cycloalkanones and styryl sulfone. [Pg.323]

N-terminal L-proline, again in DMSO as solvent [40], In this study the maximum ee in the addition of acetone to trans-2-nitrostyrene was 31%. Alexakis and Andrey successfully employed the bis-pyrrolidine 52 as catalyst for the addition of aldehydes and ketones to trans-fi-nitrostyrene [41], whereas Barbas and Betancort [42] were able to perform the Michael addition of unprotected aldehydes to nitroolefins using the pyrrolidine derivative 53 as catalyst (Scheme 4.24). [Pg.66]

Michael-adducts obtained by Barbas and Betancort (ref. 42) from aldehydes and nitroolefins, using 20 mol-% of 53 as catalyst in THF at ambient temperature... [Pg.66]

Addition of Aldehydes to Nitroolefins and Alkylidene Malonates 2.3.4.1 Aminopyrrolidine Catalysts... [Pg.84]

Fig. 2.12 The rationale of enantioselectivity of the pyrrolidine catalyst-mediated additions of aldehydes to nitroolefins. Fig. 2.12 The rationale of enantioselectivity of the pyrrolidine catalyst-mediated additions of aldehydes to nitroolefins.
Scheme 2.44 Asymmetric addition of aldehydes to nitroolefins catalyzed by Alexakis s aminopyrrolinines 5 and 29. Scheme 2.44 Asymmetric addition of aldehydes to nitroolefins catalyzed by Alexakis s aminopyrrolinines 5 and 29.
Due to the increased reactivity of the aldehyde, alkyl-substituted nitroolefins can also be used as substrates. Nevertheless, these reactions are usually low-yielding and afford moderate selectivity. Alexakis has shown, however, that the bispyrrolidine 5-catalyzed additions may be used in multistep synthesis. The addition of propionaldehyde 34 to nitroolefin 33 resulted an approximate 2 3 mixture of anti/syn isomers in 92% yield and in high ee (93%), allowing the asymmetric synthesis of (—)-botryodiplodin (Scheme 2.46) [23b]. [Pg.86]

The bifunctional pyrrolidine sulfonamide catalyst, 38, having basic pyrrolidine nitrogen and Bronsted acidic sulfonamide function, mediates the addition of aldehydes to nitrostyrenes in high yield and selectivity (Scheme 2.47) [34]. Alkyl-substituted nitroolefins afford, however, product in low yield and in low selectivity. [Pg.86]

The diphenylprolinol silyl ether 45a catalyst was developed by the Hayashfs group for the addition of a-unbranched aldehydes to aryl and alkyl substituted nitroolefins [35]. This catalyst, as well as the perfluoroalkyl derivative 45b [36],... [Pg.86]

Scheme 2.48 The Michael addition of aldehydes on nitroolefins, catalyzed by 45a and 45b. Scheme 2.48 The Michael addition of aldehydes on nitroolefins, catalyzed by 45a and 45b.
General Procedure for the Pyrrolidine-Mediated 1,4-Addition of Aldehydes to Nitroolefins [32] (p. 86)... [Pg.471]

To a hexane solution of the nitroolefin (1.0 mmol) and catalyst (34 mg, 0.1 mmol) was added an aldehyde (10 mmol) at 0 °C. The mixture was stirred until reaction completion, and then quenched by the addition of aq. 1 M HCl. Organic materials were extracted three times with ethyl acetate. The combined organic phases were dried over Na2S04, filtered, concentrated, and purified by preparative TLC (chloroform) to afford the Michael adduct. [Pg.471]

Oxidation always accompanies nitration, resulting in the formation of nitro compounds and a mixture of acids, aldehydes, ketones, alcohols, nitrites, nitroso compounds, nitroolefins, polymers, carbon monoxide and carbon dioxide. Catalysts such as copper, iron, platinum oxide, etc., accelerate oxidation rather than nitration. [Pg.88]

As reported in Figure 2.5, nitroolefins (26), easily obtained by nitroaldol condensation between 5-nitro ketones (24) and aldehydes (25), are converted directly into the spiroketals (29) by reduction with sodium boronhydride in methanol. The one-pot reduction-spiroketalization of nitroalkenes (26) probably proceeds via the nitronate (27) that by acidification is converted into carbonyl derivatives, which spontaneously cyclize to emiketals (28). Removal of the tetrahydropyranyl group, by heating the acidic mixture during the workup, affords, in a one-pot reaction from (26), the desired spiroketals in 64-66% overall yields. The spiroketalization of (26)-(29b) proceeds in high ( )-diastereoselectivity. [Pg.59]

The nitroparaffins are condensed with aldehydes to yield nitro alcohols (70-80%), which on acetylation and treatment with an aqueous methanolic solution of sodium bicarbonate are converted to nitroolefins (80-84%). These compounds are reduced to the corresponding ketoximes by zinc and acetic acid (50-60%). Reduction with iron and dilute hydrochloric acid gives good yields of either ketones or ketoximes, depending upon the amount of hydrochloric acid used. The ketoximes can be hydrolyzed to ketones by refluxing with dilute sulfuric acid in the presence of formalin, which acts as a hydroxylamine acceptor (80%). The over-all yields from the nitroolefins are 40-60%. In this manner, certain otherwise difficultly obtainable ketones are prepared. Semicarbazones have been converted to ketones by treatment with sodium nitrite in glacial acetic acid, with aqueous oxalic acid, or with phthalic anhydride. ... [Pg.620]

Serrano, J A, Moreno, M C, Rom, E, Arjona, O, Plumet, J, Jimenez, J, Enantioselective s3mthesis of cyclohexene nitro aldehydes via Diels-Alder reactions with sugar nitroolefins, J. Chem. Soc. Perkin. Trans 1, 3207-3212, 1991. [Pg.498]

The synthesis of the bisbenzannelated spiroketal core of the y-rubromycins was achieved by the research team of C.B. de Koning." The key step was the Nef reaction of a nitroolefin, which was prepared by the Henry reaction between an aromatic aldehyde and a nitroalkane. The nitroolefin was a mixture of two stereoisomers, and it was subjected to catalytic hydrogenation in the presence of hydrochloric acid. The hydrogenation accomplished two different tasks it first converted the nitroalkene to the corresponding oxime and removed the benzyl protecting groups. The oxime intermediate was hydrolyzed to a ketone that underwent spontaneous spirocyclization to afford the desired spiroketal product. [Pg.309]

The total synthesis of spirotryprostatin B was accomplished by K. Fuji et al using an asymmetric nitroolefination to establish the quaternary stereocenter." The conversion of the nitroolefin to the corresponding aldehyde was carried out under reductive conditions using excess titanium(lll) chloride in aqueous solution. The initially formed aldehyde oxime was hydrolyzed in situ by the excess ammonium acetate. [Pg.309]

See other pages where Aldehydes nitroolefins is mentioned: [Pg.322]    [Pg.322]    [Pg.364]    [Pg.174]    [Pg.41]    [Pg.114]    [Pg.329]    [Pg.114]    [Pg.259]    [Pg.372]    [Pg.801]    [Pg.365]    [Pg.84]    [Pg.87]    [Pg.249]    [Pg.249]    [Pg.358]    [Pg.113]    [Pg.61]    [Pg.114]    [Pg.308]    [Pg.944]    [Pg.311]    [Pg.18]   
See also in sourсe #XX -- [ Pg.45 ]



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Michael addition of aldehydes to nitroolefins

Nitroolefin

Nitroolefination

Nitroolefins

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