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Aluminum ketones, reduction

The mechanism of lithium aluminum hydride reduction of aldehydes and ketones IS analogous to that of sodium borohydride except that the reduction and hydrolysis... [Pg.629]

Some advantages of this reaction are high yield if the tosylate is in a sterically accessible position excellent isotopic purity of the product (usually higher than-95%) and perhaps most important, access to stereospecifically labeled methylene derivatives. For example, deuteride displacement of 3j -tosylates (183) yields the corresponding Sa-d derivative (185) in 96-98% isotopic purity. Application of this method to the labeled sulfonate (184), obtained. by lithium aluminum deuteride reduction of a 3-ketone precursor (see section HI-A) followed by tosylation, provides an excellent synthesis of 3,3-d2 labeled steroids (186) without isotopic scrambling at the adjacent positions. The only other method which provides products of comparable isotopic purity at this position is the reduction of the tosyl-hydrazone derivative of 3-keto steroids (section IV-B). [Pg.197]

Lithium aluminum deuteride reduction of the 2a,3a-oxide function has been carried out with a number of different 5a-steroids (227). ° The isotopic purity of the resulting 2 -d,-3a-ols (228) is usually 96-100%. By mild oxidation, under Jones conditions, these alcohols can be converted into stereospecifically labeled monodeuterio ketones (229) ° of high isotopic purity. (For an alternate preparation of certain a-monodeuterio ketones, see section VI-B.)... [Pg.204]

An alternate method of producing the 21-hydroxy-20-ketone consists in lithium aluminum hydride reduction of the dimethyl acetal, hydrolysis to the 20-hydroxy-21-aldehyde and rearrangement, preferably via the bisulfite addition product... [Pg.216]

The chemical reduction of enamines by hydride again depends upon the prior generation of an imonium salt (111,225). Thus an equivalent of acid, such as perchloric acid, must be added to the enamine in reductions with lithium aluminum hydride. Studies of the steric course (537) of lithium aluminum hydride reductions of imonium salts indicate less stereoselectivity in comparison with the analogous carbonyl compounds, where an equatorial alcohol usually predominates in the reduction products of six-membered ring ketones. [Pg.428]

The lithium aluminum hydride-aluminum chloride reduction of ketones is closely related mechanistically to the Meerwein-Ponndorf-Verley reduction in that the initially formed alkoxide complex is allowed to equilibrate between isomers in the... [Pg.20]

Butylcyclohexanol has been prepared from />-/-butylphenol by reduction under a variety of conditions.3 4 Winstein and Holness5 prepared the pure trans alcohol from the commercial alcohol by repeated crystallization of the acid phthalate followed by saponification of the pure trans ester. Eliel and Ro 6 obtained 4-f-butylcyclohexanol containing 91% of the trans isomer by lithium aluminum hydride reduction of the ketone. Iliickel and Kurz 7 reduced />-/-butylphenol with platinum oxide in acetic acid and then separated the isomers by column chromatography. [Pg.19]

The homology between 22 and 21 is obviously very close. After lithium aluminum hydride reduction of the ethoxycarbonyl function in 22, oxidation of the resultant primary alcohol with PCC furnishes aldehyde 34. Subjection of 34 to sequential carbonyl addition, oxidation, and deprotection reactions then provides ketone 21 (31% overall yield from (—)-33). By virtue of its symmetry, the dextrorotatory monobenzyl ether, (/ )-(+)-33, can also be converted to compound 21, with the same absolute configuration as that derived from (S)-(-)-33, by using a synthetic route that differs only slightly from the one already described. [Pg.199]

The stereoselective total synthesis of both ( )-corynantheidine (61) (170,171) (alio stereoisomer) and ( )-dihydrocorynantheine (172) (normal stereoisomer) has been elaborated by Szdntay and co-workers. The key intermediate leading to both alkaloids was the alio cyanoacetic ester derivative 315, which was obtained from the previously prepared ketone 312 (173) by the Knoevenagel condensation accompanied by complete epimerization at C-20 and by subsequent stereoselective sodium borohydride reduction. ( )-Corynantheidine was prepared by modification of the cyanoacetate side chain esterification furnished diester 316, which underwent selective lithium aluminum hydride reduction. The resulting sodium enolate of the a-formyl ester was finally methylated to racemic corynantheidine (171). [Pg.198]

REDUCTION WITH ALUMINUM AMALGAM Reduction of Aliphatic-Aromatic Ketones to Pinacols [144]... [Pg.212]

Reactions of 4,7-phenanthroline-5,6-dione have been the subject of considerable study. It is reduced to 5,6-dihydroxy-4,7-phenanthroline by Raney nickel hydrogenation226,249 or by aromatic thiols in benzene,262 and oxidized by permanganate to 3,3 -bipyridyl-2,2 -dicarboxylic acid.263 It forms bishemiketals with alcohols226 and diepoxides with diazomethane.226 The diepoxides by reaction with hydrochloric acid form diols of type 57, R = Cl, which on oxidation with lead tetraacetate give 3,3 -bipyridyl diketones of type 58, R = Cl. Methyl ketones of type 58, R = H, are also obtained by lead(IV) acetate oxidation of the diol 57, R = H, obtained by lithium aluminum hydride reduction of 57, R = Cl. With phenyldiazomethane and diphenyldiazomethane the dione forms 1,3-dioxole derivatives,264,265 which readily hydrolyze back to the dione with concomitant formation of benzaldehyde and benzophenone, respectively. [Pg.36]

Satisfactory result have likewise been obtained with aliphatic ketones. Thus, Schlenk and Lamp1583 prepared 1,3-dichloro- 2 -propanol by lithium aluminum hydride reduction of 1,3-diddorooootone. McBee... [Pg.380]

GRUNDMANN ALDEHYDE SYNTHESIS. Transformation of an acid into an aldehyde of the same chain length by conversion of the acid chloride via the diazo ketone to the acetoxy ketone, reduction with aluminum isopropoxide and hydrolysis to the glycol, and cleavage with lead tetraacetate. [Pg.747]

Selective reduction of ot,a-dihalo ketones." Reduction of a,a-dihalo ketones can he effected without hydrogenolysis of the halo groups with either DIBAH or borane dimethyl sulfide. Reactions with the former reagent are generally faster but work-up can be complicated by gelatinous aluminum salts. In general, the yields are roughly comparable. [Pg.436]

For the reduction of aldehydes, anhydrous isopropyl alcohol is recommended as the solvent in order to avoid side reactions such as the Tishchenko reaction.13 In those reductions for which aluminum ethox-ide is satisfactory either ethyl or isopropyl alcohol may be employed as a solvent. For most aldehydes, the temperature of boiling isopropyl alcohol is satisfactory for rapid and complete reduction. Certain sensitive aldehydes or ketones may be reduced at room temperature by letting the mixture stand for several days. When aldehydes are reduced, a slow stream of dry nitrogen or hydrogen is frequently employed for reactions requiring long periods of time (including most of the aluminum ethoxide reductions), or when the reduction products are sensitive to air. [Pg.194]

Oxasilacyclopentenes were shown to be competent substrates for a scandium triflate-catalyzed Mukaiyama aldol process (Scheme 7.35).104 Exposure of silacy-clopentene 121 and benzaldehyde to substoichiometric amounts of scandium triflate produced ketone 122 diastereoselectively.105 This ketone was proposed to form by addition of enolate 123, resulting from desilylation of 121,106 to benzaldehyde. A 1,3-Brook rearrangement then afforded 122 from 124.107 This ketone could be further functionalized through lithium aluminum hydride reduction followed by deprotection to afford triol 125 containing four contiguous stereocenters. Thus, the molecular complexity of silyloxyalkynes can be increased dramatically in just three operations. [Pg.206]

The Julia olefin synthesis consists of the reaction of a sulfonyl anion with an aldehyde or ketone. The resulting alcohol is usually acetylated and the olefin formed by aluminum-amalgam reduction. The yield of / -hydroxysulfone is usually good, but the subsequent reductive elimination is more... [Pg.42]

Hydroxymethyhtion of ketones. A ketone can be converted into the a-hydroxy-methyl derivative in two. steps acylation with ethyl formate, followed by aluminum hydride reduction. The sequence is illustrated for the conversion of 4-rerr-butylcyclo-hcxanone(l) inlo 2-hydroxymelhyl-4-ferf-butylcyclohexanone(3). [Pg.233]

Methods using sodium cyanoborohydride in acidic solvents are also applicable for ketone reduction. Cemy and his coworkers postulated that sodium bis(methoxyethoxy)aluminum dihydride in xylene at ca. 140 has a nearly equal effect compared with lithium aluminum hydride. The rather drastic... [Pg.314]


See other pages where Aluminum ketones, reduction is mentioned: [Pg.20]    [Pg.12]    [Pg.526]    [Pg.517]    [Pg.517]    [Pg.150]    [Pg.322]    [Pg.244]    [Pg.182]    [Pg.182]    [Pg.187]    [Pg.147]    [Pg.251]    [Pg.191]    [Pg.96]    [Pg.365]    [Pg.504]    [Pg.2]    [Pg.116]   
See also in sourсe #XX -- [ Pg.155 ]




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Lithium aluminum hydride cyclic ketone reduction

Lithium aluminum hydride selective ketone reduction

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