Amines, synthesis

Hofmann s amine synthesis can be applied to both aliphatic and aromatic carboxylic acid amides, benzamide, C HsCONH, thus giving aniline, C4H5NH,. 

This compound is similar in type to the sodium acet-bromoamide, CHjCONNaBr, which is an intermediate compound in Hofmann s amine synthesis (p. 127). If a weak acid (such as acetic acid) is now added to the solution of the chloro-sodio-amide, the latter compound reacts with the hypo-chlorous acid giving the sulphon-dichloro amide, which being insoluble in water, rapidly separates ... 

Reduction seems to be the keyword in amine synthesis since we can also raduce these functional groups to amines ... 

Analysis Since there is one CH2 group next to the nitrogen atom, this might be a carbonyl group in our usual method of amine synthesis (frame 237). 

Direct addition of ammonia to olefmic bonds would be an attractive method for amine synthesis, if it could be carried out smoothly. Like water, ammonia reacts with butadiene only under particular reaction conditions. Almost no reaction takes place with pure ammonia in organic solvents. The presence of water accelerates the reaction considerably. The reaction of aqueous ammonia (28%) with butadiene in MeCN in the presence orPd(OAc)i and PhjP at 80 C for 10 h gives tri-2,7-octadienylamine (47) as the main product, accompanied by a small amount of di-2,7-octadienylamine (46)[46,47], Isomeric branched... 

The 20 ammo acids listed m Table 27 1 are biosynthesized by a number of different path ways and we will touch on only a few of them m an introductory way We will exam me the biosynthesis of glutamic acid first because it illustrates a biochemical process analogous to a reaction we discussed earlier m the context of amine synthesis reductive ammatwn (Section 22 10)... 

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. 

Furazano[3,4-d]pyrimidine, 7-amino-synthesis, 6, 729 UV spectra, 6, 713 Furazanopyrimidines amine synthesis from, 5, 591 synthesis, 6, 418 Furazano[3,4-d]pyrimidines nucleophilic attack, 6, 719 nucleophilic substitution, 6, 713 reduction, 6, 402 7-substituted reactions, 6, 722 Furazano[3,4-a]quinolizines synthesis, 6, 730... 

Quaternary ammonium compounds biocidal activity mechanism, 1, 401 toxicity, 1, 124 Quaternization heterocyclic compounds reviews, 1, 73 ( )-Quebrach amine synthesis, 1, 490 Queen substance synthesis, 1, 439 4, 777 Quercetin occurrence, 3, 878 pentamethyl ether photolysis, 3, 696 photooxidation, 3, 695 Quercetrin hydrolysis, 3, 878 Quinacetol sulfate as fungicide, 2, 514 Quinacridone, 2,9-dimethyl-, 1, 336 Quinacridone pigments, 1, 335-336 Quinacrine... 

FORSTER - DECKER Amine Synthesis Selective monoalkylation of primary amines via imines An altemativa method is the reaction ol 1 and 2 in the preserve of NaCNBH4 or tnaceloxyborohydride (Borch reduction)/... 

GABRIEL Amine Synthesis Synthesis ol primary amines from alkyl halides... 

Primaty amines may be prepared from alkyl halides using phthalimide. This is called the Gabriel amine synthesis. 

Next the product is acylated with bromoacetyl chloride and the glycine equivalent is constructed in place by a Gabriel amine synthesis (phthalamide anion followed by hydrazine) subsequent to which cyclization to benzodiazepine occurs. The synthesis of the tranquilizer quazepam (88) is finished by thioamide conversion with phosphorus pentasulfide. ... 

Another alternative for preparing a primary amine from an alkyl halide is the Gabriel amine synthesis, which uses a phthalimide alkylation. An imide (—CONHCO—) is similar to a /3-keto ester in that the acidic N-H hydrogen is flanked by two carbonyl groups. Thus, imides are deprotonated by such bases as KOH, and the resultant anions are readily alkylated in a reaction similar to the acetoacetic ester synthesis (Section 22.7). Basic hydrolysis of the N-alkylated imide then yields a primary amine product. The imide hydrolysis step is analogous to the hydrolysis of an amide (Section 21.7). 

Write the mechanism of the last step in the Gabriel amine synthesis, the base-promoted hydrolysis of a phthalimi.de to yield an amine plus phthalale ion. 

Curtius rearrangement, 933 diazotization reaction, 941 Gabriel amine synthesis, 929 heterocycle, 945... 

One problem with reductive amination as a method of amine synthesis is that by-products are sometimes obtained. For example, reductive amination of benzaldehyde with methylamine leads to a mixture of iV-methylbenzylamine and i -methyldibenzylarnine. How do you suppose the tertiary amine byproduct is formed Propose a mechanism. 

Gabriel amine synthesis (Section 24.6) A method for preparing an amine by SN2 reaction of an alkyl halide with potassium phthalimide. followed by hydrolysis. 

Phosphine(s), chirality of, 314 Phosphite, DNA synthesis and, 1115 oxidation of, 1116 Phospholipid, 1066-1067 classification of, 1066 Phosphopantetheine, coenzyme A from. 817 structure of, 1127 Phosphoramidite, DNA synthesis and, 1115 Phosphoranc, 720 Phosphoric acid, pKa of, 51 Phosphoric acid anhydride, 1127 Phosphorus, hybridization of, 20 Phosphorus oxychloride, alcohol dehydration with. 620-622 Phosphorus tribromide, reaction with alcohols. 344. 618 Photochemical reaction, 1181 Photolithography, 505-506 resists for, 505-506 Photon, 419 energy- of. 420 Photosynthesis, 973-974 Phthalic acid, structure of, 753 Phthalimide, Gabriel amine synthesis and, 929... 

Acid chlorides are very reactive and at room temperature react readily with amines. Synthesis by interfacial and solution methods is possible. However, care should be taken that the hydrochloric acid produced does not react with unreacted amine groups. With the strong basic aliphatic diamines, the acid binder must preferably be even more basic. The attainable molecular weights are strongly dependent on the concentrations this is particularly the case for easily precipitated terephthalamide polymers. Possible problems with the acid binder can be overcome by starting with silylated diamines.33,34 A typical example for interfacial polymerization of terephthalamides is PA-2,T.66... 

Fischer, C. 8c Carreira, E.M. (2004) Mgl2 an Additive in Ir(I)-Catalyzed Addition ofSUylacetylenes to Imines Expeditions Synthesis of Propargylic Amines. Synthesis, 9, 1497-1503. 

Reduction of azides is a classical approach to primary amine synthesis. Treatment of 17 with sodium azide in DMF or in THF/H2O mixtures in the presence of phase transfer catalysts effects a quantitative conversion to the corresponding polymeric azide, 27. Recently the reduction of azides to primary amines via hydrolysis of iminophosphoranes produced by interaction of the azide with triethyl phosphite was reported.30 Application of this technique to the azidomethyl polymer, 27, as shown below, failed to produce a soluble polyamine. 

Biogenic amines are decarboxylated derivatives of tyrosine and tryptophan that are found in animals from simple invertebrates to mammals. These compounds are found in neural tissue, where they function as neurotransmitters, and in non-neural tissues, where they have a variety of functions. The enzymes involved in biogenic amine synthesis and many receptors for these compounds have been isolated from both invertebrate and vertebrate sources. In all cases, the individual proteins that effect biogenic amine metabolism and function show striking similarity between species, indicating that these are ancient and well-conserved pathways. 

Figure 1 Solutia low pressure amine synthesis process.

Lawrence SA (2004) (ed.) Amines Synthesis, properties and applications, Cambridge University Press, Cambridge... 

In recent years, the importance of aliphatic nitro compounds has greatly increased, due to the discovery of new selective transformations. These topics are discussed in the following chapters Stereoselective Henry reaction (chapter 3.3), Asymmetric Micheal additions (chapter 4.4), use of nitroalkenes as heterodienes in tandem [4+2]/[3+2] cycloadditions (chapter 8) and radical denitration (chapter 7.2). These reactions discovered in recent years constitute important tools in organic synthesis. They are discussed in more detail than the conventional reactions such as the Nef reaction, reduction to amines, synthesis of nitro sugars, alkylation and acylation (chapter 5). Concerning aromatic nitro chemistry, the preparation of substituted aromatic compounds via the SNAr reaction and nucleophilic aromatic substitution of hydrogen (VNS) are discussed (chapter 9). Preparation of heterocycles such as indoles, are covered (chapter 10). 

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