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Amines of nitriles

Vink,M.K.S., Schortinghuis, C.A., Mackova-Zabelinskaja, A. etal. (2003) Novel reductive amination of nitriles an efficient route to 5-hydroxypiperidone-derived /V./Y-acatals. Advanced Synthesis and Catalysis, 345,483 487. [Pg.124]

Little work could be found on the electrophilic amination of simple nitrile-stabilized carbanions. The lithium anion of propionitrile reacts normally with an N-substituted oxaziridine (Eq. 141).158 The amination of nitriles with a camphor-derived N-unsubstituted oxaziridine was discussed earlier (Eq. II).151 Aminoma-lononitrile is formed from malononitrile anion and 0-(mesitylenesulfonyl)hydro-xylamine (Eq. 142).463... [Pg.54]

By the hydrolysis of nitriles. The nitriles may be easily prepared either from amines by the Sandmeyer reaction (Section IV,66) or by the action of cuprous cyanide upon aryl halides (compare Section IV,163). Benzyl cyanide... [Pg.751]

R4N= BnEtsN or BU4N Heterocylces 1980, 14, 1437, 1441 reduction of amides to amines reduction of nitriles to amines... [Pg.44]

The Stephen s method allows the reduction of nitriles by stannous chloride in acid medium. If the amine chlorhydrate initially formed is hydrolyzed, the corresponding aldehyde is obtained (37, 91). Harington and Moggridge (37) have reduced 4-methyl-5-cyanothiazole by this method (Scheme 23). However, Robba and Le Guen (91) did not obtain the expected products with 4.5-dicyanothiazole and 2-methyl-4,5-dicyanothiazole. These compounds have been reduced with diisobutyl-aluminium hydride with very low yields (3 to 6%) (Scheme 24). In other conditions the reaction gives a thiazole nitrile aldehyde with the same yield as that of the dialdehyde. [Pg.531]

The same reduction methods may be applied to the conversion of nitriles to pn mary amines... [Pg.931]

As a class of compounds, nitriles have broad commercial utility that includes their use as solvents, feedstocks, pharmaceuticals, catalysts, and pesticides. The versatile reactivity of organonitnles arises both from the reactivity of the C=N bond, and from the abiHty of the cyano substituent to activate adjacent bonds, especially C—H bonds. Nitriles can be used to prepare amines, amides, amidines, carboxyHc acids and esters, aldehydes, ketones, large-ring cycHc ketones, imines, heterocycles, orthoesters, and other compounds. Some of the more common transformations involve hydrolysis or alcoholysis to produce amides, acids and esters, and hydrogenation to produce amines, which are intermediates for the production of polyurethanes and polyamides. An extensive review on hydrogenation of nitriles has been recendy pubHshed (10). [Pg.217]

Phosphoms pentafluoride behaves as a Lewis acid showing electron-accepting properties. It forms complexes, generally in a ratio of 1 1 with Lewis bases, with amines, ethers, nitriles, sulfoxides, and other bases. These complexes are frequently less stable than the similar BF complexes, probably owing to stearic factors. Because it is a strong acceptor, PF is an excellent catalyst especially in ionic polymeri2ations. Phosphoms pentafluoride is also used as a source of phosphoms for ion implantation (qv) in semiconductors (qv) (26). [Pg.224]

The zwitterion (6) can react with protic solvents to produce a variety of products. Reaction with water yields a transient hydroperoxy alcohol (10) that can dehydrate to a carboxyUc acid or spHt out H2O2 to form a carbonyl compound (aldehyde or ketone, R2CO). In alcohoHc media, the product is an isolable hydroperoxy ether (11) that can be hydrolyzed or reduced (with (CH O) or (CH2)2S) to a carbonyl compound. Reductive amination of (11) over Raney nickel produces amides and amines (64). Reaction of the zwitterion with a carboxyUc acid to form a hydroperoxy ester (12) is commercially important because it can be oxidized to other acids, RCOOH and R COOH. Reaction of zwitterion with HCN produces a-hydroxy nitriles that can be hydrolyzed to a-hydroxy carboxyUc acids. Carboxylates are obtained with H2O2/OH (65). The zwitterion can be reduced during the course of the reaction by tetracyanoethylene to produce its epoxide (66). [Pg.494]

Cycloahphatic amine synthesis routes may be described as distinct synthetic methods, though practice often combines, or hybridi2es, the steps that occur amination of cycloalkanols, reductive amination of cycHc ketones, ring reduction of cycloalkenylarnines, nitrile addition to ahcycHc carbocations, reduction of cyanocycloalkanes to aminomethylcycloalkanes, and reduction of nitrocycloalkanes or cycHc ketoximes. [Pg.208]

Amin omethyl-3,5,5-trimethyl cyclohexyl amine (21), commonly called isophoronediamine (IPD) (51), is made by hydrocyanation of (17) (52), (53) followed by transformation of the ketone (19) to an imine (20) by dehydrative condensation of ammonia (54), then concomitant hydrogenation of the imine and nitrile functions at 15—16 MPa (- 2200 psi) system pressure and 120 °C using methanol diluent in addition to YL NH. Integrated imine formation and nitrile reduction by reductive amination of the ketone leads to alcohol by-product. There are two geometric isomers of IPD the major product is ds-(22) [71954-30-5] and the minor, tram-(25) [71954-29-5] (55). [Pg.210]

The principal iadustrial production route used to prepare fatty amines is the hydrogenation of nitriles, a route which has been used since the 1940s. Commercial preparation of fatty amines from fatty alcohols is a fairly new process, created around 1970, which utilizes petrochemical technology, Ziegler or Oxo processes, and feedstock. [Pg.220]

Reductions of Nitriles. In the reduction of nitriles, hydrogen is added progressively across the carbon—nitrogen triple bond, forming first the imine and then the amine. [Pg.258]

Nitriles. The electrolytic reduction of nitriles requires a high negative potential, but can lead to amines in good yields under the right conditions. This reaction occurs in acidic media according to the following equation (62). [Pg.263]

The dipoles are shown interacting directly as would be expected. Nevertheless, it must be emphasized that behind the dipole-dipole interactions will be dispersive interactions from the random charge fluctuations that continuously take place on both molecules. In the example given above, the net molecular interaction will be a combination of both dispersive interactions from the fluctuating random charges and polar interactions from forces between the two dipoles. Examples of substances that contain permanent dipoles and can exhibit polar interactions with other molecules are alcohols, esters, ethers, amines, amides, nitriles, etc. [Pg.67]

Elastomers, plastics, fabrics, wood and metals can be joined with themselves and with each other using nitrile rubber/epoxy resin blends cured with amines and/or acidic agents. Ethylene-propylene vulcanizates can also be joined using blends of carboxylated nitrile rubber, epoxy resin and a reactive metal filler (copper, nickel, cobalt). However, one of the largest areas of use of nitrile rubber modified epoxy systems is in the printed circuit board area [12]. [Pg.660]

Reduction of nitriles (Section 22.9) Nitriles are reduced to primary amines by lithium aluminum hydride or by catalytic hydrogenation. [Pg.957]

See other pages where Amines of nitriles is mentioned: [Pg.118]    [Pg.322]    [Pg.323]    [Pg.54]    [Pg.207]    [Pg.118]    [Pg.322]    [Pg.323]    [Pg.54]    [Pg.207]    [Pg.28]    [Pg.276]    [Pg.142]    [Pg.1091]    [Pg.356]    [Pg.491]    [Pg.217]    [Pg.277]    [Pg.200]    [Pg.259]    [Pg.261]    [Pg.522]    [Pg.82]    [Pg.83]    [Pg.114]    [Pg.116]    [Pg.87]    [Pg.280]    [Pg.660]    [Pg.807]    [Pg.967]    [Pg.156]    [Pg.147]   
See also in sourсe #XX -- [ Pg.236 , Pg.539 ]



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Of nitriles to amines

Oxidation of nitriles and amines

Preparation of amines from nitriles

Reduction of nitrile to amine

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