Oximes complex hydrides

The 36d-LAH complex was applied to the reduction of ketone oximes and their O-tetrahydropyranyl and O-methyl derivatives to optically active amines (69). Results for a variety of phenyl alkyl and dialkyl ketones are shown in Table 4. The predominant amines formed all were of the S absolute configuration with optical purities up to 56%. The oxime hydroxy group presumably reacts with the less hindered H2 in the 36d-LAH complex (cf. Scheme 6) to form an oxime complex (45), which probably undergoes infermolecular hydride transfert of H2 from a second molecule of the 36d-LAH complex (Scheme 8). Asymmetric reduction with the ethanol-modified 36d-LAH reagent gave amines of R con-... 

Reduction of oximes and nitrones with complex hydrides. 136... 

Complex hydrides are reagents of choice for reduction of oximes, oxime ethers and nitrones. Hydrogenation is rarely used for reduction of these compounds although several examples are known. Other methods, especially reduction with silanes in the presence of acid, can also be useful for providing alternative stereochemical outcomes. 

Reduction of chiral ketoximes results in formation of a new stereogenic center. Although mixtures of stereoisomers are generally obtained, kineticaUy controlled reduction of cyclic oximes (e.g. 86, equation 59 and 87, equation 60) with sodium cyanoborohydride can proceed with high diastereoselectivity Stereoselectivity in these reactions closely resembles that of reduction of ketones with complex hydrides featuring attack from the least hindered side. 

It is supposed that hydrogen bonds between halogen atoms of the superacid and the a-hydrogens of the oxime in the Lewis acid-oxime complex can play a role in the hydride transfer either by inter- or by intra-molecular processes. 

Metals. Forms complex hydrides, which may explode in air, with Li and Al.9 Octanal Oxime and Sodium Hydroxide. Very exothermic and sometimes explosive reaction occurs on adding NaOH to a reaction mixture of the oxime and diborane in THF.9... 

Two novel complex hydrides are likely to find applications in steroid chemistry lithium perhydro-9b-boraphen yl hydride affords unusually high proportions of axial alcohols in model compounds sodium bis(methoxyethoxy)aluminium dihydride, Na (MeOCH2CH20)JAlH2, a very safe and convenient substitute for lithium aluminium hydride, readily reduces not only ketones but also acids, nitro-compounds, oximes, amides, lactones, etc. An improved procedure for Clemmensen reduction of steroid ketones involves saturating an ethereal solution with hydrogen chloride while stirring with zinc. 5a-Cholestane was obtained from the 3-one in 89% yield. ... 

The isomerization of the (Z)-isomer into the ( )-isomer promoted by the iridium complex explains the lack of stereospecificity of the transformation. O-Alkylated oximes and ketoximes do not react and this fact suggests that the presence of both hydrogen and a hydroxyl group is required for the success of the transformation. The authors proposed that the initial displacement of a chloride ion of the iridium complex by the oxime allows the iridium to remove both the oxygen and the hydride from the initial oxime. Swapping places of both substituents produces the amide. 

The transformations of 136 proceed cleanly upon treatment with a catalytic amount of Pd(PPh3)4, in the presence of triethylamine and molecular sieve (MS) 4 A it apparently is initiated by oxidative addition of the N(sp )-0 bond of 136 to the Pd(0) complex, and this is succeeded by two or even three intramolecular carbopalladations followed by / -hydride elimination. This Heck-type reaction is not affected by the configuration of the oxime derivatives probably due to a facile enough if/Z-isomerization of the alkylideneaminopalladium intermediate. 

The diastereomeric ratio is high only for ( )-disubstituted alkenes and norbornene, but low for cyclic and (Z)-alkenes, reflecting the order of stability of the intermediate complexes. The loss of stereochemical purity is probably due to base-catalyzed nitroso-oxime tautomerization during the reduction. However, the use of diisobutylaluminum hydride, before adding lithium aluminum hydride, allows (3/ , 4S )-3,4-hexanediamine to be obtained from (Z)-3-hexene with d.r. [(3R, 4S )IQR AR )] 90 10. 

The pioneering studies in this area were reported in 1999 by Narasaka, who demonstrated intramolecular heteroatom Heck-type reactions of 0-pentafluorobenzoyl oximes [97]. As shown below, treatment of unsaturated substrate 97 with a catalytic amount of Pd(PPh,y in the presence of triethyl amine provided pyrrole 98 upon workup with chlorotrimethylsilane. The mechanism of this reaction proceeds via oxidative addition of the N—O bond to afford 99, which undergoes alkene insertion into the Pd—N bond to provide alkyl-palladium complex 100. The exo-methylene product 101 is generated by [i-hydride elimination from 100, and isomerization to the desired pyrrole 98 occurs when chlorotrimethylsilane is added. 

The enantioselective reduction of ketoximes and their O-tctrahydropyranyl and O-methyl derivatives with the lithium aluminum hydride-3-0-benzyl-l,2-0-cyclohexylidene-a-D-gluco-furanose complex yields optically active amines with up to 56% optical purity39. For O-sub-stituted and free oximes similar stereoselectivities have been observed. All the resulting amines have the S configuration. 

The problem is apparently due to some residual aluminum that is hard to remove. If, however, the reduction is carried out in a iV-methylmorpholine solution, followed by addition of potassium tartrate, a pure product can be isolated. A -Methylmorpholine is a good solvent for reductions of various macromolecules with metal hydrides.In addition, the solvent permits the use of strong NaOH solutions to hydrolyze the addition complexes that form. Other polymers that can be reduced in it are those bearing nitrile, amide, imide, lactam, and oxime pendant groups. Reduction of polymethacrylonitrile, however, yields a product with only 70% of primary amine groups. Complete reductions of pendant carbonyl groups with LiAlH4 in solvents other than A -methyl-morpholine, however, were reported. Thus, a copolymer of methyl vinyl ketone with styrene was fully reduced in tetrahydrofuran. ... 

The alloy hydride exhibits different reactivities in comparison with classical hydrogenation catalysts (Raney nickel, Pd, Ph). The alloy is not poisoned by thiophene ring, there is no reduction of oximes nor hy-drogenolysis of benzylic C-0 bonds. The compound SmMg reacts with anthracene dissolved in THF (13). The complex absorbs hydrogen and then catalyzes the hydrogenation of ethylene. 

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