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Carbamates hydroxylation

As can be observed by the yields reported, the benzyl carbamate, hydroxyl group, and thiophene were well tolerated. The Boc group must react under these conditions, but the conditions also worked well with sterically hindered nitriles. These conditions were reported to provide retention of stereochemistry on substrates containing an asymmetric center a to the nitrile. [Pg.288]

There is an industry trend to supply SBR certifiably free of volatile nitrosamines or nitrosatable compounds. This has generally been accomplished by replacing shortstop systems based on carbamates and hydroxyl amines with products that are not based on secondary amines or are secondary amines of high molecular weight, such as dibenzyldithiocarbamate. A more recendy issued patent for ESBR shortstop is based on isopropyUiydroxylamine, a primary amine that does not form nitrosamine (46). [Pg.501]

Amino Alcohols. Reaction of chloroformate is much more rapid at the amino group than at the hydroxyl group (4—8). Thus the hydroxy carbamates, which can be cyclized with base to yield 2-oxazoHdones, can be selectively prepared (29). Nonionic detergents may be prepared from poly[(ethylene glycol) bis(chloroformates)] and long-chain tertiary amino alcohols (30). [Pg.39]

FIGURE 5.46 Interaction of the serine hydroxyl residue in the catalytically active site of acetylcholinesterase enzyme with esters of organophosphates or carbamates. The interaction leads to binding of the chemical with the enzyme, inhibition of the enzyme, inhibition of acetylcholine hydrolysis, and thus accumulation of acetylcholine in the synapses. [Pg.287]

An exchange reaction of 9 at the remaining hydroxyl group with the carbamate of ethanol affords carisoprodol (10)... [Pg.219]

From intermediate 28, the construction of aldehyde 8 only requires a few straightforward steps. Thus, alkylation of the newly introduced C-3 secondary hydroxyl with methyl iodide, followed by hydrogenolysis of the C-5 benzyl ether, furnishes primary alcohol ( )-29. With a free primary hydroxyl group, compound ( )-29 provides a convenient opportunity for optical resolution at this stage. Indeed, separation of the equimolar mixture of diastereo-meric urethanes (carbamates) resulting from the action of (S)-(-)-a-methylbenzylisocyanate on ( )-29, followed by lithium aluminum hydride reduction of the separated urethanes, provides both enantiomers of 29 in optically active form. Oxidation of the levorotatory alcohol (-)-29 with PCC furnishes enantiomerically pure aldehyde 8 (88 % yield). [Pg.196]

CDI-activated hydroxyls also may undergo a side reaction to form active carbonates. This occurs when an imidazolyl carbamate reacts with another hydroxyl group before the second hydroxyl has had a chance to get activated with CDI. Particularly with adjacent hydroxyls on the same molecule, this can be a problem if a defined reactive species is desired. Any carbonates formed, however, are still reactive toward amines to create carbamate linkages. [Pg.230]

Figure 3.13 CDI reacts with hydroxyl groups to form an active imidazole carbamate intermediate. In the pres ence of amine-containing compounds, a carbamate linkage is created with loss of imidazole. Figure 3.13 CDI reacts with hydroxyl groups to form an active imidazole carbamate intermediate. In the pres ence of amine-containing compounds, a carbamate linkage is created with loss of imidazole.
Figure 4.11 DSC can react with hydroxyl groups to create a succinimidyl carbonate intermediate that is highly reactive toward nucleophiles. In the presence of an amine-containing molecule, the active species can form stable carbamate linkages. Figure 4.11 DSC can react with hydroxyl groups to create a succinimidyl carbonate intermediate that is highly reactive toward nucleophiles. In the presence of an amine-containing molecule, the active species can form stable carbamate linkages.
Figure 9.38 The acetyl azide group of this Cascade Blue derivative has dual functions. It can react with amine groups to form amide bonds, or it can be converted to an isocyanate at high temperatures to couple with hydroxyl functional groups, creating a carbamate linkage. Figure 9.38 The acetyl azide group of this Cascade Blue derivative has dual functions. It can react with amine groups to form amide bonds, or it can be converted to an isocyanate at high temperatures to couple with hydroxyl functional groups, creating a carbamate linkage.
Figure 14.15 CDI can be used to activate hydroxyl-particles in organic solvent and then the intermediate reactive imidazole carbamate brought into aqueous solution for coupling amine-containing ligands. Figure 14.15 CDI can be used to activate hydroxyl-particles in organic solvent and then the intermediate reactive imidazole carbamate brought into aqueous solution for coupling amine-containing ligands.
See other pages where Carbamates hydroxylation is mentioned: [Pg.21]    [Pg.21]    [Pg.404]    [Pg.134]    [Pg.293]    [Pg.345]    [Pg.4]    [Pg.551]    [Pg.4]    [Pg.120]    [Pg.74]    [Pg.556]    [Pg.624]    [Pg.357]    [Pg.231]    [Pg.184]    [Pg.130]    [Pg.43]    [Pg.60]    [Pg.111]    [Pg.88]    [Pg.54]    [Pg.89]    [Pg.40]    [Pg.175]    [Pg.175]    [Pg.196]    [Pg.196]    [Pg.197]    [Pg.199]    [Pg.199]    [Pg.228]    [Pg.230]    [Pg.231]    [Pg.250]    [Pg.579]    [Pg.606]   
See also in sourсe #XX -- [ Pg.131 ]



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