Reaction with amine acid salts

Reaction With Amine Acid Salts. A reaction which appears to be less well-appreciated Is the ready condensation of some amlnoplasts with simple amines to selectively generate secondary and tertiary amine linked condensates (Scheme 7). Even In the presence of excess ammonia or primary amine, crosslinked products 13 (plus, conceivably, a trisubstituted product) which contain more highly substituted secondary (and tertiary) amines predominate over 12 (H). These particularly stable, high crosslink density products form with simple amine or diamine acid salts under unexpectedly mild, even room temperature conditions (6). 

A chemical reaction is carried out between the racemate and an optically active form (either laevo-or dextro-) of a substance capable of reacting with the racemate. This other optically active compound is usually derived from a natural source. To resolve the racemates of amines (or other bases) and alcohols, for example, use may be made of the naturally occurring d-tartaric acid (from wine tartar). The reaction with amines gives salts and esters are formed with alcohols. For the resolution of racemates of acids, use is frequently made of alkaloids such as quinine or stiychnine extracted from plants in which each of these alkaloids is present in an optically active form. The racemate mixture forms two diastereoisomers (compounds that are stereoisomers of each other, but are not enantiomers) of a derivative, with the optically active reagent used. If the... 

Primary aromatic amines differ from primary aliphatic amines in their reaction with nitrous acid. Whereas the latter yield the corresponding alcohols (RNHj — ROH) without formation of intermediate products see Section 111,123, test (i), primary aromatic amines 3neld diazonium salts. Thus aniline gives phcnyldiazonium chloride (sometimes termed benzene-diazonium chloride) CjHbNj- +C1 the exact mode of formation is not known, but a possible route is through the phenjdnitrosoammonium ion tlius ... 

Reaction with Nitrous Acid. Primary, secondary, and tertiary aromatic amines react with nitrous acid to form a variety of products. Primary aromatic amines form diazonium salts. ... 

We ve already studied the two most general reactions of amines—alkylation and acylation. As we saw earlier in this chapter, primary, secondary, and tertiary amines can be alkylated by reaction with a primary alkyl halide. Alkylations of primary and secondary amines are difficult to control and often give mixtures of products, but tertiary amines are cleanly alkylated to give quaternary ammonium salts. Primary and secondary (but not tertiary) amines can also be acylated by nucleophilic acyl substitution reaction with an acid chloride or an acid anhydride to yield an amide (Sections 21.4 and 21.5). Note that overacylation of the nitrogen does not occur because the amide product is much less nucleophilic and less reactive than the starting amine. 

Piperidines. Grieco et al. have described a general synthesis of piperidines by reaction of the acid salt of a primary amine with an allylsilane and 2 equiv. of formaldehyde in water. The reaction involves reaction of iminium ion (a), derived from the amine and formaldehyde, with the allylsilane to form a homoallylamine (b), which can form a second iminium ion (c), which cyclizes with capture of water to the piperidine. 

Unsymmetrically substituted perylene pigments are a comparatively recent novelty. Selective protonation of the tetra sodium salt of perylene tetracarboxylic acid affords the monosodium salt of perylene tetracarboxylic monoanhydride in high yield. Stepwise reaction with amines produces unsymmetrically substituted perylene pigments [2],... 

Amines are easily identified because they re readily soluble in dilute acid. Sodium fusion converts the cimine to the cyanide ion, which is detectable by a Vciriety of methods. The ready formation and decomposition of diazonium salts (discussed in the earlier section Reactions with nitrous acid ) leads to the identification of primary amines. The Hinsberg test (see the nearby sidebcir) is useful in identifying amines. 

The formation of diazonium salts from aromatic primary amines by reaction with nitrous acid undoubtedly involves the intermediate formation of V-nitroso compounds. The Demjanov and Tiffeneau-Demjanov ring expansions also involve V-nitroso compounds [2]. Some V-nitroso compounds have been used as sources of free radicals and as blowing agents. 

Primary aromatic amines on reaction with nitrous acid in the presence of hydrochloric acid (or other mineral acid) at about 0 °C yield diazonium salts as discrete intermediates. The diazonium salts similarly derived from aliphatic primary amines decompose readily even at this temperature to yield the corresponding alcohol (and other products) with the evolution of nitrogen. 

Amines are particularly prone to reaction with excipients and salt counterions, as shown in Figure 45 for tartaric acid. The potential for a reaction with magnesium stearate or stearic acid is particularly of concern with an API containing a primary amine. In the case of norfloxacin, formation of a stearoyl derivative was observed in tablets containing magnesium stearate after prolonged storage at 60°C (Fig. 46) (81). 

Binks and Ridd164 have made a complete kinetic study of the reaction of indole with several diazotized amines (p-nitroaniline, p-chloroaniline, sulfanilic acid, and aniline). Only the reaction with p-nitrodiazonium salt exhibits a simple kinetic form (pseudo first-order reaction) in the other cases the kinetics appear to be due to the superposition of two reactions, a normal azo-coupling reaction and an autocatalytic side reaction that removes diazonium ions, but does not form azo compounds. 

If an amine is insoluble, reaction with an acid produces a water-soluble salt. Since ammonium salts are water soluble, many drugs containing amines are prepared as ammonium salts. After working with fish in the kitchen, a convenient way to rid one s hands of fish odor is to rub a freshly cut lemon over the hands. The citric acid found in the lemon reacts with the amines found on the fish a salt forms which can be easily rinsed away with water. 

For the reaction of TDI with a polyether triol, bismuth or lead compounds can also be used. However, tin catalysts are preferred mainly because of their slight odor and the low amounts required to achieve high reaction rates. Carboxylic acid salts of calcium, cobalt, lead, manganese, zinc, and zirconium are employed as cocatalysts with tertiary amines, tin compounds, and tin—amine combinations. Carboxylic acid salts reduce cure time of rigid foam products. Organic mercury compounds are used in cast elastomers and in RIM systems to extend cream time, ie, the time between mixing of all ingredients and the onset of creamy appearance. 

Diphenylhydrazine is oxidized to diphenylnitrosamine (50%) by potassium superoxide. The same reagent also oxidizes 1-methyl-1-phenylhydrazine, but here the nitrosamine is a minor product the major reaction is deamination. A better meAod of oxidative deamination of some 1,1-disubstituted hydrazines and hydrazinium salts is reaction with nitrous acid. Thus, several hydrazinium salts MezRN NHi X were deaminated to the tertiary amine by treatment with nitrous acid. The method has also been used to deaminate IV-aminoheterocyclic compounds for example, some 1,2,3-triazoles are conveniently prepared by deamination of the corresponding 1-aminotriazoles with nitrous acid. °... 

Monohalogenothiazoles, 567 nucleophilic substitution reactions, 322 with amines. 567 with ArSH, 567 with benzamide, 567 with OH", 567 with OR", 567 relative reactivities, 568 with SR", 567 with sulfinic acid salts, 567 with sulfonamide, 567 reactions, with alkyl halides, 574 with n-butyllithium, 573 with Gtignard reagents, 573 reeduction of, with nickel, 573 with zinc, 573... 

Contrary to carboxylic acids which, under normal conditions, only give salts with amines, dithiocarboxylic acids, RCS2H, are quite reactive in nucleophilic displacement reactions. However, the compounds are unpleasant to handle and, due to their limited stability, often give only low yields of thioamides in the reaction with amines.The approach was successfully employed in the synthesis of thiobenzoyl azolides, e. g. in the formation of (7) according to equation (4). °... 

Thioacylation reactions with dithiocarboxylic acids are not limited to amines, but, employing the Mg salt, can also be carried out with hydroxylamine to give thiohydroxamic acids or with hydrazine and some substituted hydrazines to provide thiohydrazides. ... 

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