Reduction nitrile

Method 5. Nitrile reduction reaction of a nitrile with hydrogen over a hydrogenation catalyst. 

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). 

A mixture of primary and secondary amines is formed when ammonia is not used during the nitrile reduction. It is possible to prepare high purity secondary amines by carrying the reduction out at low pressure and passing hydrogen through the reaction in a batch process (47,48),... 

Hydrogenation of oximes to primary amines usually can be made to proceed smoothly despite the potential complications cited earlier. Many of the same considerations applicable to control of nitrile reductions hold for oxime reductions as well. Oximes, unlike nitriles, can be reduced to hydroxylamines. 

Negishi reaction 157 Nitriles, reduction/hydrolysis 25 Nitrogen heterocycles, on-resin cyclization, minopropenones 108 C-Nucleoside analogues 274... 

The history of dendrimer chemistry can be traced to the foundations laid down by Flory [34] over fifty years ago, particularly his studies concerning macro-molecular networks and branched polymers. More than two decades after Flory s initial groundwork (1978) Vogtle et al. [28] reported the synthesis and characterization of the first example of a cascade molecule. Michael-type addition of a primary amine to acrylonitrile (the linear monomer) afforded a tertiary amine with two arms. Subsequent reduction of the nitriles afforded a new diamine, which, upon repetition of this simple synthetic sequence, provided the desired tetraamine (1, Fig. 2) thus the advent of the iterative synthetic process and the construction of branched macromolecular architectures was at hand. Further growth of Vogtle s original dendrimer was impeded due to difficulties associated with nitrile reduction, which was later circumvented [35, 36]. This procedure eventually led to DSM s commercially available polypropylene imine) dendrimers. 

Naphthoquinone, ketone-alcohol reduction, diastereoselectivity, 76-77 Nitrile reduction, a,/3-unsaturated nitriles, 96... 

Problem 18.8 Prepare ethylamine by (a) Gabriel synthesis, (6) alkyl halide amination, (c) nitrile reduction, (d) reductive amination, (e) Hofmann degradation. ... 

A more challenging example of an unsaturated nitrile reduction that lacks the carboxylate functional group is the asymmetric reduction of the nitrile shown in Figure 1.15. The product was required in the synthesis of chiral... 

Step 2 nitrile reduction In this step the two processes are very similar both are Raney nickel-catalyzed nitrile reductions using hydrogen. The reason the enzymatic process has an approximately halved energy is that it is being carried out in the enantiopure form, whereas in the classical resolution process this reaction is performed with a racemic substrate. 

LiAIH(OEt)3,345 DIBALH,346 and NaAIH4.347 The metal hydride method is useful for aliphatic and aromatic nitriles. Reduction to the aldehyde has also been accomplished by treatment of the nitrile with sodium hypophosphate and Raney nickel in aqueous acetic acid-pyridine or formic acid,348 and with zinc and a Cob(I)alamin catalyst in aqueous acetic... 

Because only one stable electroactive product arises from the reduction of /7-chlorobenzonitrile, the interpretation of the cyclic voltammetric behavior is relatively straightforward. The fact that electron attachment to halogen-containing compounds frequently results in the cleavage of the carbon-halogen bond immediately suggests benzonitrile as a possible product. The similarity between the cyclic voltammetric behavior of benzonitrile and that of the p-chlorobenzo-nitrile reduction product supports this prediction (see Fig. 21.1). 

This preparation illustrates the alkylation of malononitrile under acid-catalyzed conditions, and the use of diborane for the reduction of a dinitrile to a diamine. The procedure for the preparation of tert-butylmalononitrile has been outlined briefly by Boldt and co-workers.2 The generation of diborane in situ and the general method for nitrile reduction is that described by Brown and co-workers.3 Attempts to reduce the dinitrile to the diamine by other methods including catalytic hydrogenation (5% rhodium on alumina, 5 atm.), lithium aluminum hydride, and lithium aluminum hydride-aluminum chloride were singularly unsuccessful. 

The alkylation of ammonia, Gabriel synthesis, reduction of nitriles, reduction of amides, reduction of nitrocompounds, and reductive amination of aldehydes and ketones are methods commonly used for preparing amines. 

Step 4 Acidic workup is required to hydrolize the intermediate imine that is formed on nitrile reduction. 

However, the electrochemical reduction requires a large excess of acids, which produce waste salts during work up and product isolation. This is certainly one of the reasons why the process has so far not competed successfully with the industrial syntheses based on allyl chloride. A few examples of nitrile reduction, which can also be carried... 

The essence of the cascade synthesis is depicted in Scheme 2.1. Two procedures, alkylation and reduction, comprised the [a — b — a — b — ] sequence. Thus, treatment of a diamine with acrylonitrile afforded tetranitrile 3. Cobalt-mediated nitrile reduction gave tetraamine 4. Further amine alkylation provided the second generation octanitrile 5. The nonskid-chain-like [2] synthesis is shown in Scheme 2.2. Construction of polycyclic 6 was accomplished by repetitive alkylation, reduction, acylation, and reduction (a — b c— d—>a- b— ...) sequences. Again, repetitive and multiple reaction sequences were employed for the generation of new molecular assemblies. Most notable about these syntheses is that for the first time, generational molecules were prepared and characterized at each stage of the construction process. 

Worner and Miilhaupt 9 improved Vogtle s procedure by modifications that do not utilize excess reagents and complicated purifications. They first improved the nitrile reduction step by the use of Raney nickel 10 at ambient temperature (8 bar H2) with a trace of sodium hydroxide in an ethanolic solvent. They further found that the cyanoethylation,... 

Fig. 17.69. Two-step sequence for the conversion of a ketone into the homologous nitrile ("reductive cyanation of a carbonyl compound"). In the second step of the reaction the diazene anion G is generated and decomposes in a similar way as the diazene anion D in the Wolff-Kishner reduction of Figure 17.67 and the diazene anion G of the semicarbazone reduction in Figure 17.68.

Various modifications of the reaction of an alcohol with ammonia provide the most common commercial routes to alkylamines. Some others routes that are used to make certain individual amines include aldehyde/amine additions, nitrile reduction, the Ritter reaction, amination of isobutylene, and hydrogenation of anilines. Capacities of many plants depend on the product mix of mono/di/tri products as well as the variety of amines (ethyl, propyl and butyl). One must know the product mix that the capacity is based upon and the actual scheduled output of produces) to determine what amounts can actually be manufactured. Capacities are often in excess of anticipated demand to satisfy seasonal demands for pesticide uses116. 

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