Reduction borohydride

One of the most attractive features of borohydride reductions is that under microwave-enhanced conditions they can be performed in the solid state, and rapidly. We were attracted by the work of Loupy et al. [71], and in particular Varma and Saini [72, 73] who have shown that irradiation of a number of aldehydes and ketones in a microwave oven in the presence of alumina doped NaBH4 for short periods of time, led to rapid reduction (0.5-2 min) in good yields (62-93%). In our study [74], seven aldehydes and four ketones were reduced (Table 18.3). Again reduction was complete within 1 min, the products were of high purity ( 95%) and of high isotopic incorporation (95%, same as the NaBD4), and the reactions completely selective. [Pg.834]

So far this remains the only microwave-enhanced borohydride deuteriation study. Corresponding tritiation studies can be anticipated in due course, especially with the wider range of tritiated reducing agents, referred to previously, becoming available. Significant reductions in radioactive waste can be anticipated. [Pg.834]

Many borohydrides are highly unstable and have to be used as freshly prepared ethereal solutions. However there are instances where the polymer-supported ver- [Pg.834]

Direct Borohydride Reduction of Alcohols to Alkanes with Phosphonium Anhydride Activation N-Proovlbenzene. To a solution of 5.56 g (20 mmol) of triphenylphosphine oxide in 30mL of dry methylene chloride at CfC was added dropwise a solution of 1.57 mL (10 mmol) of triflic anhydride in 30mL of dry methylene chloride. After 15 min when the precipitate appeared, a solution of 1.36g (10 mmol) of 3-phenyl-1-propanol in 10 mL of dry methylene chloride was added and the precipitate vanished in 5 min. An amount of 1.5g (40 mmol) of sodium borohydride was added as a solid all at once and the slurry was stirred at room temperature for... [Pg.203]

The conditions required for the sodium borohydride reduction of 2-amino-5-acylthiazoles are stronger than those used for the reduction of 2-acylamino-5-acylthiazole (476). [Pg.91]

Sodium borohydride and lithium aluminum hydride react with carbonyl compounds in much the same way that Grignard reagents do except that they function as hydride donors rather than as carbanion sources Figure 15 2 outlines the general mechanism for the sodium borohydride reduction of an aldehyde or ketone (R2C=0) Two points are especially important about this process... [Pg.629]

Nucleophilic addition to carbonyl groups sometimes leads to a mixture of stereoisomeric products The direction of attack is often controlled by stenc factors with the nude ophile approaching the carbonyl group at its less hindered face Sodium borohydride reduction of 7 7 dimethylbicyclo[2 2 IJheptan 2 one illustrates this point... [Pg.734]

Does sodium borohydride reduction of o ribose yield an opti... [Pg.1053]

Depending on experimental conditions, sodium borohydride reduction of anthraquinone, in a lower ahphatic alcohol, results in 9,10-dihydroxyanthracene... [Pg.420]

A McMurry coupling of (176, X = O Y = /5H) provides ( )-9,ll-dehydroesterone methyl ether [1670-49-1] (177) in 56% yield. 9,11-Dehydroestrone methyl ether (177) can be converted to estrone methyl ether by stereoselective reduction of the C —double bond with triethyi silane in triduoroacetic acid. In turn, estrone methyl ether can be converted to estradiol methyl ether by sodium borohydride reduction of the C17 ketone (199,200). [Pg.436]

Xyhtol also is obtained by sodium borohydride reduction of D-xylonic acid y-lactone (32) and from glucose by a series of transformations through diacetone glucose (46). [Pg.48]

Lactitol (4-0-p -D-galactopyranosyl-D-glucitol) is obtained by sodium borohydride reduction (99,100) or catalytic hydrogenation (101) of lactose. Potentially large quantities of this sugar alcohol are available from lactose obtained from whey. [Pg.50]

Recent papers by a manufacturer of sodium borohydride, NaBH (145,146), have demonstrated that excellent removal of metals and color of acid, direct, and reactive dyes for textiles and paper can be achieved with bisulfite-catalyzed borohydride reduction in combination with polymer flocculation. [Pg.382]

M. M. Cook and co-workers, "Sodium Borohydride Reductions—Novel Approaches to Decolorization and Metals Removal iu Dye Manufacturiug and Textile Effluent Applications," 203rd National Meeting of the American Chemical Society, San Erancisco, Apr. 5—10,1992. [Pg.391]

J. A. Ulman and M. M. Cook, Sodium Borohydride Reductions—"Removal of Color and Metals Erom Paper Dyes," 204th National Meeting of the American Chemical Society, Washiagton, D.C., Aug. 23—28,1992. [Pg.391]

V-Benzoylation of a 1,2,3,4-tetrahydro derivative is reported, whilst related 1,4-dialkyl derivatives resulted from borohydride reduction of the parent [2,3-f ] compound in the presence of carboxylic acids (79JHC973). [Pg.251]

The reduction of 3,5-diphenylisoxazoline with sodium cyanoborohydride produced a mixture of isomeric 3,5-diphenylisoxazolidines. The H and NMR spectra were utilized to distinguish the isomers SOLAIOI). Sodium borohydride reductions likewise reduce isoxazolines to isoxazolidines (equation 56) (80JA4265). [Pg.112]

Borohydride reduction of 3-aryl-l,2-benzisothiazole 1,1-dioxides gives the 2,3-dihydro compounds 73JMC1170). Reduction of either 2-methylsaccharin or 2-hydroxymethylsac-charin with lithium aluminum hydride gives the same product, iV-methyl-o-hydroxymethyl-benzenesulfonamide (73AHC(15)233). [Pg.152]

The borohydride reduction rate data are paralleled by the rate data for many other carbonyl addition reactions. In fact, for a series of ketones, most of which are cyclic, a linear free-energy correlation of the form... [Pg.471]

Although the nature of the general polar effect suggested by Kamernitzsky and Akhrem " to account for axial attack in unhindered ketones is not clear, several groups have reported electrostatic interactions affect the course of borohydride reductions. Thus the keto acid (5a) is not reduced by boro-hydride but its ester (5b) is reduced rapidly further, the reduction of the ester (6b) takes place much more rapidly than that of the acid (6a). Spectroscopic data eliminate the possibility that in (5a) there is an interaction between the acid and ketone groups (e.g. formation of a lactol). The results have been attributed to a direct repulsion by the carboxylate ion as the borohydride ion approaches. " By contrast, House and co-workers observed no electrostatic effect on the stereochemistry of reduction of the keto acid (7). However, in this compound the acid group may occupy conformations in which it does not shield the ketone. Henbest reported that substituting chlorine... [Pg.71]

A novel reaction of perchloryl fluoride with aromatic substrates was discovered by Neeman and Osawa, the oxofluorination reaction. These authors found that reaction of indene with perchloryl fluoride in dioxane-water yields five products, the major product being, 2-fluoroindanone. When applied to 6-dehydroestradiol diacetate (24) there is obtained as the major product the 7a-fluoro-6-ketone (25). Borohydride reduction of the... [Pg.477]

Sodium Borohydride Reduction of Ethyl 5a.-Cholestan-3-one 2a.-Xanthate ... [Pg.43]

FIGURE 15.2 Mechanism of sodium borohydride reduction of an aldehyde or ketone. [Pg.630]

The carbonyl group of carbohydrates can be reduced to an alcohol function. Typical procedures include catalytic hydrogenation and sodium borohydride reduction. Lithium aluminum hydride is not suitable, because it is not compatible with the solvents (water, alcohols) that are requited to dissolve caibohydrates. The products of caibohydrate reduction aie called alditols. Because these alditols lack a car bonyl group, they aie, of course, incapable of forming cyclic hemiacetals and exist exclusively in noncyclic forms. [Pg.1052]

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