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Metal hydrides unsaturated carbonyl compounds

The plausible mechanism of this ruthenium-catalyzed isomerization of allylic alcohols is shown in Scheme 15. This reaction proceeds via dehydrogenation of an allylic alcohol to the corresponding unsaturated carbonyl compound followed by re-addition of the metal hydride to the double bond. This mechanism involves dissociation of one phosphine ligand. Indeed, the replacement of two triphenylphosphines by various bidentate ligands led to a significant decrease in the reactivity.37... [Pg.78]

Next to the cyclopropane formation, elimination represents the simplest type of a carbon-carbon bond formation in the homoenolates. Transition metal homoenolates readily eliminate a metal hydride unit to give a,p-unsaturated carbonyl compounds. Treatment of a mercurio ketone with palladium (II) chloride results in the formation of the enone presumably via a 3-palladio ketone (Eq. (24), Table 3) [8], The reaction can be carried out with catalytic amounts of palladium (II) by using CuCl2 as an oxidant. Isomerization of the initial exomethylene derivative to the more stable endo-olefin can efficiently be retarded by addition of triethylamine to the reaction mixture. [Pg.13]

The synthesis of a,p-unsaturated carbonyl compounds and nitriles by Pd-catalyzed reaction [245] of allyl p-oxo esters and allyl a-cyano esters is an oxidative process. With the contra-polarizability of the metal ion, elimination of a hydride from the p-position is electronically favorable. [Pg.143]

The chemoselective 1,2-reduction of a 3-unsaturated carbonyl compounds has been carried out with metal hydride or by hydrogenation. However, chemoselective 1,4-reduction of a (B-unsaturated carbonyl compounds is challenging. Recently, a(B-unsaturated carbonyl compounds 1.23, 1.25 and 1.27 were selectively reduced to the corresponding saturated carbonyl compounds 1.24, 1.26 and 1.28, respectively, by cobalt octacarbonyl and water [Co2(CO)8-H20 system]... [Pg.11]

Epoxides can isomerize under the influence of transition metal catalysts. This formal 1,2-hydride shift is a method to prepare unsaturated carbonyl compounds from epoxides (Equation 54) <1998T1361>. This method has been extended as a double epoxide isomerization-intramolecular aldol condensation (Equation 55) <1996JOC7656, 1998TL3107>. m-Epoxides are isomerized to /ra r-epoxides under ruthenium catalysis <2003TL3143>. [Pg.196]

The reduction of unsaturated carbonyl compounds by metal hydrides, and the reaction of organometallic nucleophiles with them, is a complicated story.87 It is more common than not, in each case, to get direct attack at the carbonyl group, but reaction in the conjugate position is well known. Conjugate reduction of a/i-unsaturated ketones by metal hydrides increases88 in the sequences Bu2iAlH < LiAlH4 < LiAlH(OMe)3 < LiAlH(OBu )3 and... [Pg.71]

The olefinic bond of a,g-unsaturated carbonyl compounds can also be reduced by two transition metal hydrides, NaHFe2(CO)881 and NaHCr2(CO)10 82 Neither reagent reduces nitriles, ketones, aldehydes or non-conjugated carbon-carbon double bonds. [Pg.273]

These trends agree with the frontier orbital analysis. In particular, the delivery of hydride from carbon breaks a relatively unpolarised bond, making the hydride notably soft, as we saw earlier in its capacity to attack pyridinium salts preferentially at the 4-position. The metal hydrogen bond will be more polarised, and metal hydrides should therefore be harder. Similarly, the delivery of hydride from boron will make it softer than when it is delivered from the more electropositive metal, aluminium. It also seems that, among a,(3-unsaturated carbonyl compounds, the susceptibility to conjugate reduction increases in the sequence ketones < esters < acids < amides but there are too few examples to be sure. [Pg.189]

Many additions to a,p-unsaturated carbonyl compounds, take advantage of coordination to the oxygen by a metal cation or a proton, or even just a hydrogen bond. This is true for hydrides and carbon nucleophiles. In such a situation, the LUMO coefficient is largest at the carbonyl carbon, but not at the p carbon. Thus, even soft nucleophiles can be expected to attack directly at the carbonyl carbon when Lewis or protic acid catalysis is involved. It is likely that the difference in the... [Pg.173]

In analogy to hydroformylation, alkenes react with SO2 and H2 to give a so-called hydrosulftnation product, sulfinic acids [116]. Cationic Pd(II) and Pt(II) complexes bearing bidentate phosphine ligands are effective catalyst precursors. A plausible mechanism for the hydrosulfination involves formation of alkyl intermediates by olefin insertion into metal hydrides, subsequent insertion of SO2, and reformation of the hydrides with the release of sulfinic acids (Scheme 7.19). However, ahphatic sulfinic acids readily undergo disproportionation to give thiosulfinic acid esters, sulfonic acids, and water at the reaction temperature. The unstable sulfinic acids can be conveniently converted into y-oxo sulfones by addition of a,-unsaturated carbonyl compounds as Michael acceptors to the reaction mixtine (Eq. 7.23) [117]. [Pg.398]

The formal conjugate addition of a hydride to a,f(-unsaturated carbonyl compounds with a subsequent aldol reaction of the in situ formed enolate has been frequently employed in organic synthesis. A broad range of procedures have been developed using various metals (e.g., rhodium, cobalt, iridium, mthenium, copper) and different reductants (typically silanes, boranes, or elemental hydrogen) [37]. [Pg.287]

Nucleophiles used in the seminal papers by Tsuji and co-workers were mostly stabilized carbon nucleophiles, and the method found an early synthetic application in a preparation of steroids." It soon became evident that many other types of nucleophiles could be used. In particular, hydride ion equivalents led to l-olefinsf ° " (see Sect. V.2.3.1), Silyl and stannyl enolates of simple ketones and aldehydes and esters can be aUylated, as well as allyl enol carbonates (see Sect. V.2.1.4), This is an indirect a-aUylation of ketones, aldehydes, and esters. Enol derivatives can take another reaction course under Pd(0) catalysis (Scheme 2). Thus, oxidation to a,/3-unsaturated carbonyl compounds ensues if reactions are performed in acetonitrile under precise sources of catalyst precursor. "" "" A full discussion on the dichotomy of allylation-oxidation has been published, as well as a comparison of the usefulness of several transition metals as catalysts in allylation of nucleophiles. ... [Pg.78]

Nucleophilic Addition—A Two-Step Process 724 Nucleophilic Substitution—A Two-Step Process 725 LiAlH4 Reduction of RCHO and R2C = O 728 Reduction of RCOCl and RCOOR with a Metal Hydride Reagent 735 Reduction of an Amide to an Amine with LiAlH4 737 Nucleophilic Addition of R"MgX to RCHO and R2C = O 743 Reaction of R"MgX or R"Li with RCOCl and RCOOR 751 Carboxylation—Reaction of RMgX with CO2 754 1,2-Addition to an a, 3-Unsaturated Carbonyl Compound 756 1,4-Addition to an a, 3-Unsaturated Carbonyl Compound 756... [Pg.1279]

The reduction of the free carbonyl group in such enol ethers, e.g., by metal hydrides, followed by acid treatment, leads via -hydroxy ketones (or aldehydes) to a general syntheas of a,/3-unsaturated carbonyl compounds [247, 254, 249, 251, 255]. This sequence has also been applied to thioenol ethers [256, 257]. Corresponding products are obtained by reaction with other nucleophiles, such as lithium acetylide [246], methyl lithium [225] and by the use of the Reformatski reaction [248]. In these reactions it is usually the less-hindered carbonyl group which appears as such in the final a,/3-unsaturated product, e.g., Fig. 9.15. [Pg.350]

The classic Hieber-base reaction 16 is that of a hydroxide with metal carbonyls, which proceeds by nucleophilic attack of the hydroxide at a carbon atom of a carbonyl ligand to give a carboxy group or consequently carbon dioxide and a metal hydride.17 Metal carbonyls are catalysts for the water-gas shift reaction.18 Pentacarbonyl(tetrafluoroborato)rhenium reacts with alkali hydroxide in a similar way however, due to the coordinatively unsaturated nature of the [Re(CO)5]+ group polynuclear compounds are formed.15... [Pg.111]

By Reduction of Unsaturated Precursors The method of choice for labeling with tritium is the reduction of a suitable unsaturated precursor (containing a double bond, carbonyl group, etc.) with carrier-free tritium gas or tritiated metal hydrides. The major limitation of this method is the availability of a suitable unsaturated precursor of the desired compound. It is essential to carry out the synthesis in a non-hydroxylic solvent (dioxane, ethyl acetate, etc.). Reductions carried out in alcohol or water will lead to almost complete exchange of the tritium gas with the solvent. [Pg.100]

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See also in sourсe #XX -- [ Pg.536 ]



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Carbonyl compounds metal hydrides

Carbonyl compounds metalation

Hydride compounds

Metal carbonyl hydrides

Transition metal hydrides unsaturated carbonyl compounds

Unsaturated carbonyl compounds

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