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Hydrogenation of Azide

The 2,6-dimethylbenzyl ether is considerably more stable to hydrogenolysis than is the benzyl ether. It has a half-life of 15 h at 1 atm of hydrogen in the presence of Pd-C whereas the benzyl ether has a half-life of —45 min. This added stability allows hydrogenation of azides, nitro groups, and olefins in the presence of a di-methylbenzyl group. ... [Pg.158]

There is no pressure drop in the hydrogenation of azides, so reaction completion can not be followed by this means. If a drop docs occur, some other function is being reduced as well. [Pg.171]

Primary amines result from the hydrogenation of azides at room temperature and 3-4 atmospheres over platinum oxide or palladium catalysts. > 2 jhe addition of acid is sometimes beneficial. Raney nickel is a less efficient catalyst for this reaction. [Pg.489]

J.C. Moutet, A. Oruari, and A. Zouaoui, Electrocatalytic hydrogenation of azides using precious metal microparticles dispersed in polymer films, Electrochim. Acta, 37, 1261 1263 (1992). [Pg.332]

In HMPA, highly fluorinated azides are prepared Catalytic hydrogenation of these compcMnds leads to the corresponding amines [89] (equation 77)... [Pg.465]

Nitrogen forms more than 20 binaiy compounds with hydrogen of which ammonia (NH3, p. 420), hydrazine (N2H4, p. 427) and hydrogen azide (N3H, p. 432) are by far the most important. Hydroxylamine, NH2(OH), is closely related in structure and properties to both ammonia, NH2(H), and hydrazine, NH2(NH2) and it will be convenient to discuss this compound in the present section also (p. 431). Several protonated cationic species such as NH4+, N2H5+, etc, and deprotonated anionic species such as NH2 , N2H3 , etc. also exist but ammonium hydride, NH5, is unknown. Among... [Pg.426]

Treatment of 8-azidomethylperhydropyrido[l,2-c]pyrimidin-l-one 157 with methyl triflate and catalytic hydrogenation of the azide group led to the formation of tricyclic guanidine derivative 158 (01JA8851). Hydroxy group of 149 was protected with methoxymethyl chloride, and the p-methoxybenzyl protecting group (PMB) was eliminated by treatment with DDQ. [Pg.254]

Butyl alcohol in synthesis of phenyl 1-butyl ether, 46, 89 1-Butyl azidoacetate, 46, 47 hydrogenation of, 46, 47 1-Butyl chloroacetate, reaction with sodium azide, 46, 47 lre l-4-i-BUTYLCYCLOHEXANOL, 47,16 4-(-Butylcyclohexanonc, reduction with lithium aluminum hydride and aluminum chloride, 47, 17 1-Butyl hypochlorite, reaction with cy-clohexylamine, 46,17 l-Butylthiourea, 46, 72... [Pg.123]

Intermediate 37 can be transformed into ( )-thienamycin [( )-1)] through a sequence of reactions nearly identical to that presented in Scheme 3 (see 22— 1). Thus, exposure of /(-keto ester 37 to tosyl azide and triethylamine results in the facile formation of pure, crystalline diazo keto ester 4 in 65 % yield from 36 (see Scheme 5). Rhodium(n) acetate catalyzed decomposition of 4, followed by intramolecular insertion of the resultant carbene 3 into the proximal N-H bond, affords [3.2.0] bicyclic keto ester 2. Without purification, 2 is converted into enol phosphate 42 and thence into vinyl sulfide 23 (76% yield from 4).18 Finally, catalytic hydrogenation of 23 proceeds smoothly (90%) to afford ( )-thienamycin... [Pg.262]

Boc-protection needed during reductive hydrogenation of the azide group to prevent reaction medium becoming basic Competitive de-chlorination of the aryl chloride group occurs under basic conditions... [Pg.244]

Boc-protection needed during reductive hydrogenation of the azide group... [Pg.250]

A violent explosion occurred during vacuum distillation of 4-chlorophenyl isocyanate, prepared by Curtius reaction from the azide. It was found by IR spectroscopy that this isocyanate (as well as others prepared analogously) contained some unchanged azide, to which the explosion was attributed. The use of IR spectroscopy to check for absence of azides in isocyanates is recommended before distillation [1], Subsequently, the explosion was attributed to free hydrogen azide, produced by hydrolysis of the unchanged acyl azide [2],... [Pg.864]

Catalytic transfer hydrogenations for the reduction of carbon-carbon double bonds are illustrated in Scheme 4.18. Reductions of azide functionalities to amines with lipases suspended in organic media under microwave conditions have also been reported [206]. [Pg.176]

A" 0-Butenolide, 46, 22 /-Butyl alcohol, in synthesis of phenyl /-butyl ether, 45, 89 reaction with sodium cyanate and trifluoroacetic acid, 48, 32 /-Butyl azidoacctatc, 46, 47 hydrogenation of, 45, 47 /-Butyl carbamate, 48,32 /-Butyl chloroacetate, reaction with sodium azide, 45, 47 /ra S-4-/-BuTYI,CYCLOHEXANOL, 47,16... [Pg.70]

The pyrrolidine derivative 314, a skeletal analog of the antitumor antibiotic anisomycin, was synthesized from the acetal derivative 16b. The 5-OH group of 16b was tosylated and then substituted with sodium azide. Reduction (sodium borohydride) of the lactone group afforded an open-chain derivative, which was selectively protected to give 313. Hydrogenation of the azide function, followed by p-toluenesulfonylation, led to 314 by an intramolecular nucleophilic displacement (284). [Pg.198]

See other pages where Hydrogenation of Azide is mentioned: [Pg.377]    [Pg.378]    [Pg.583]    [Pg.942]    [Pg.21]    [Pg.116]    [Pg.571]    [Pg.270]    [Pg.377]    [Pg.378]    [Pg.583]    [Pg.942]    [Pg.21]    [Pg.116]    [Pg.571]    [Pg.270]    [Pg.350]    [Pg.131]    [Pg.81]    [Pg.170]    [Pg.453]    [Pg.242]    [Pg.248]    [Pg.36]    [Pg.92]    [Pg.200]    [Pg.200]    [Pg.1602]    [Pg.22]    [Pg.224]    [Pg.39]    [Pg.269]    [Pg.270]    [Pg.154]    [Pg.197]    [Pg.199]   
See also in sourсe #XX -- [ Pg.1220 ]



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