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Lithium aluminum hydride cleavage

Thiiranes can be formed directly and stereospecifically from 1,2-disubstituted alkenes by addition of trimethylsilylsulfenyl bromide, formed at -78 C from reaction of bromine with bis(trimethylsilyl) sulfide (Scheme 7).12 A two-step synthesis of thiiranes can be achieved by addition of succinimide-A/-sulfe-nyl chloride or phthalimide-A -sulfenyl chloride to alkenes followed by lithium aluminum hydride cleavage of the adducts (Scheme 8).13 Thiaheterocycles can also be formed by intramolecular electrophilic addition of sulfenyl chlorides to alkenes, e.g. as seen in Schemes 914 and 10.13 Related examples involving sulfur dichloride are shown in Schemes 1116 and 12.17 In the former case addition of sulfur dichloride to 1,5-cyclooctadiene affords a bicyclic dichloro sulfide via regio- and stereo-specific intramolecular addition of an intermediate sulfenyl chloride. Removal of chlorine by lithium aluminum hydride reduction affords 9-thiabicyclo[3.3.1]nonane, which can be further transformed into bicyclo[3.3.0]oct-1,5-ene.16... [Pg.331]

A procedure has been described for the determination of irregular head-to-head and tail-to-tail linkages in polyepichlorohydrin. This procedure involves dechlorination of the polymer with lithium aluminum hydride, cleavage of the resultant poly-(propylene oxide) with n-butyllithium, and analysis by gas chromatography to determine the relative amounts of the respective dipropylene glycols. [Pg.148]

Reductive cleavage of oxiranes to alcohols by lithium aluminum hydride is an important reaction (64HC(19-1)199), but the most powerful hydride donor for this purpose is lithium triethylborohydride (73JA8486). [Pg.112]

NaBH4, H0(CH2)20H, 40°, 18 h, 87% yield. Lithium aluminum hydride can be used to effect efficient ester cleavage if no other functional group is present that can be attacked by this strong reducing agent. ... [Pg.162]

Since double bonds may be considered as masked carbonyl, carboxyl or hydroxymethylene groups, depending on whether oxidative or reductive methods are applied after cleavage of the double bond, the addition products from (E)-2 and carbonyl compounds can be further transformed into a variety of chiral compounds. Thus, performing a second bromine/lithium exchange on compound 4, and subsequent protonation, afforded the olefin 5. Ozonolysis followed by reduction with lithium aluminum hydride gave (S)-l-phenyl-l,2-ethanediol in >98% ee. [Pg.143]

Remarkable solvent effects on the selective bond cleavage are observed in the reductive elimination of cis-stilbene episulfone by complex metal hydrides. When diethyl ether or [bis(2-methoxyethyl)]ether is used as the solvent, dibenzyl sulfone is formed along with cis-stilbene. However, no dibenzyl sulfone is produced when cis-stilbene episulfone is treated with lithium aluminum hydride in tetrahydrofuran at room temperature (equation 42). Elimination of phenylsulfonyl group by tri-n-butyltin hydride proceeds by a radical chain mechanism (equations 43 and 44). [Pg.772]

Lithium aluminum hydride reduces most sulfur compounds with cleavage of the C—S bond, including thiols. " Thioesters can be reduced with Ni2B (from NiBr2/... [Pg.531]

The reduction of a stannaphosphene with lithium aluminum hydride has been reported to give the stannylphosphine.92 An excess of hydride leads to cleavage of the phosphorus-tin single bond.104... [Pg.319]

O-acetylophiocarpine (381) with ethyl chloroformate afforded the C-8—N cleaved urethane 382 in quantitative yield. Sequential treatment of 382 with silver nitrate, PCC, sodium hydroxide, and p-toluenesulfonic acid in ethanol furnished acetal 384, which was reduced with lithium aluminum hydride followed by hydrolysis to afford the hemiacetal 385. Oxidation of 385 with PCC provided (+ )-a-hydrastine (369). Similar treatment of O-acetylepi-ophiocarpine (386) afforded ( )-/J-hydrastine (368) however, in this case, C—N bond cleavage of 386 with ethyl chloroformate proceeded without regioselectivity. [Pg.200]

Usually alcohols accompany aldehydes in reductions with lithium aluminum hydride [1104] or sodium bis 2-methoxyethoxy)aluminum hydride [544], or in hydrogenolytic cleavage of trifluoroacetylated amines [7772]. Thus terr-butyl ester of. -(. -trifluoroacetylprolyl)leucine was cleaved on treatment with sodium borohydride in ethanol to rerr-butyl ester of A7-prolylleucine (92% yield) and trifluoroethanol [7772]. During catalytic hydrogenations over copper chromite, alcohols sometimes accompany amines that are the main products [7775]. [Pg.166]

See other pages where Lithium aluminum hydride cleavage is mentioned: [Pg.113]    [Pg.94]    [Pg.1162]    [Pg.113]    [Pg.94]    [Pg.1162]    [Pg.210]    [Pg.108]    [Pg.432]    [Pg.438]    [Pg.60]    [Pg.166]    [Pg.184]    [Pg.269]    [Pg.418]    [Pg.387]    [Pg.114]    [Pg.66]    [Pg.155]    [Pg.145]    [Pg.76]    [Pg.200]    [Pg.664]    [Pg.20]    [Pg.41]    [Pg.319]    [Pg.145]    [Pg.27]    [Pg.895]    [Pg.219]    [Pg.256]    [Pg.167]    [Pg.132]    [Pg.105]    [Pg.89]    [Pg.406]    [Pg.825]    [Pg.1163]    [Pg.1414]   


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Lithium aluminum hydride C—P bond cleavage

Oxetanes cleavage, lithium aluminum hydride

Reductive cleavage with lithium aluminum hydride

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