Aliphatic amines secondary

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Crysialline Derivatives of Primary and Secondary Aliphatic Amines... 

The melting points of the derivatives of some primary and secondary aliphatic amines are collected in Table 111,123. 

Experimental details are given for the cyanoethylatlon of primary alcohols and of secondary aliphatic amines ... 

The most versatile derivative from which the free base can be readily recovered is the picrate. This is very satisfactory for primary and secondary aliphatic amines and aromatic amines and is particularly so for heterocyclic bases. The amine, dissolv in water or alcohol, is treated with excess of a saturated solution of picric acid in water or alcohol, respectively, until separation of the picrate is complete. If separation does not occur, the solution is stirred vigorously and warmed for a few minutes, or diluted with a solvent in which the picrate is insoluble. Thus, a solution of the amine and picric acid in ethanol can be treated with petroleum ether to precipitate the picrate. Alternatively, the amine can be dissolved in alcohol and aqueous picric acid added. The picrate is filtered off, washed with water or ethanol and recrystallised from boiling water, ethanol, methanol, aqueous ethanol, methanol or chloroform. The solubility of picric acid in water and ethanol is 1.4 and 6.23 % respectively at 20°. 

Dehydrofluorination by primary and secondary aliphatic amines occurs at room temperature and is the basis of diamine cross linkmg, which occurs by dehydrofluonnation and subsequent nucleophihc substitution of the double bond The locus of dehydrofluonnation is a VDF unit flanked by two perfluoroolefin units This selectively base-sensitive methylene group also undergoes elimination as the first step in phase-transfer-catalyzed cross-hnking with quaternary ammo mum or phosphomum salts, bisphenols, and morganic oxides and hydroxides as HF acceptors [31, 32]... 

These Br nsted-type plots often seem to be scatter diagrams until the points are collated into groups related by specific structural features. Thus, p-nitrophenyl acetate gives four separate, but parallel, lines for reactions with pyridines, anilines, imidazoles, and oxygen nucleophiles.Figure 7-4 shows such a plot for the reaction of trans-cmmm c anhydride with primary and secondary aliphatic amines to give substituted cinnamamides.All of the primary amines without substituents on the a carbon (R-CHi-NHi) fall on a line of slope 0.62 cyclopentylamine also lies on this line. If this line is characteristic of normal behavior, most of the deviations become qualitatively explicable. The line drawn through the secondary amines (slope 1.98) connects amines with the structure R-CHi-NH-CHi-R. The different steric requirements in the acylation reaction and in the model process... 

The reaction is generally thought to involve carbonium-ion intermediates but several puzzling features remain. Secondary aliphatic amines give nitrosamines without evolution of N2 ... 

The synthesis of 3//-azepines by the photolysis of aryl azides in nucleophilic media is a much more efficient and versatile route than the thermolytic process. Initial studies involved photolysis of the aryl azides in an excess of a secondary aliphatic amine, and moderate yields of A, V-dialkyl-3//-azepin-2-amines 38 were obtained.35-1 72... 

Later studies demonstrated that the yields of A-alkyl-5L/-pyrido[2,3-c]azepin-9-amines 7 from 8-azidoquinoline 6 are enhanced by the presence of a 6-methoxy group107 108 and that ring expansion is now possible in secondary aliphatic amine solution. In each case, however, significant yields of quinolinediamines 8 are also produced. 

The deoxygeneration of nitroarenes by trivalent phosphorus compounds in the presence of amines is a useful route to 3/f-azepin-2-amines (cf. compounds 32, Section 3.1.1.4.2.2.). Subsequently, it has been shown, by carrying out the reaction in strongly basic solution, that the process can be extended to the synthesis of 1H-. 3H- and 5//-2-benzazepines from nitronaph-thalenes 43 For example, 1-nitronaphthalenes 3 with dimethyl phosphite in the presence of sodium methoxide and a primary or secondary aliphatic amine, yield the dimethyl 5//-2-ben-zazepin-3-yl phosphonates 4 accompanied, in some cases, by the isomeric 3//-2-bcnzazepin-3-yl phosphonates 5. 

Primary and secondary aliphatic amines, morpholine and 2-methylaziridine and aniline and even the sterically hindered 2.2,6,6-tetramethylpiperidine readily react with 6-bromo-trithiadiazepine 7, in certain cases in the presence of /V./V-diisopropylethylamine, at room temperature by substitution of the bromine atom ammonia, for example, yields trithiadiazepin-6-amine 22 (R1 = R2 = H). There is compelling evidence that these reactions proceed by an elimination-addition mechanism via the heteroaryne, trithiadiazepyne 21.391... 

Schmolukowski in 1917, a diffusion-controlled bimolecular reaction in solution at 25 °C can reach a value for th second-order rate constant k as high as 7 x 109 m 1s-1. Nitrosations of secondary aliphatic amines also have rates which are relatively close to diffusion control (see Zollinger, 1995, Sec. 4.1). 

Ethyleneimine reacts with (p-tolylsulfonyl)acetylene to give only the (Z)-product 115 via trans addition (equation 91), while primary and secondary aliphatic amines afford ( )-products76. With nonterminal acetylenes such as l-(ethylsulfonyl)-l-propyne, the reactions of ethyleneimine, n-propylamine and f-butylamine give mixtures of ( )- and (Z)-adducts. The double conjugate addition of sodium sulfide, selenide and telluride to bis(l-propynyl)sulfone (116) produces heterocycles (117) as illustrated in equation 9277. 

The method can be used to prepare a number of a-aminonitriles from aliphatic or aromatic aldehydes and ketones and secondary aliphatic amines.4... 

The reaction of 2-bromo-5-nitrothiazole with weakly basic secondary aliphatic amines gave the expected 2-amino products. The isomeric 5-bromo-2-nitrothiazole with such amines gave mixtures of the expected 5-amino products along with 2-aminated 5-nitrothiazole rearrangement products. A mechanism was proposed which involves the slow thermal isomerisation of the 5-bromo-2-nitrothiazole to the much more reactive 2-bromo isomer which competes, in the case of relatively weak amine nucleophiles, with direct but slow displacement of the 5-bromo group to form the normal displacement product <96JHC1191>. 

Primary aliphatic amines and piperidine react even at room temperature, whereas secondary aliphatic amines require reflux temperature. Primary and secondary aromatic amines also require reflux temperature and A -methylimidazole as catalyst. 

Baum AA, Kamischky LA, McLeod Jr D, Kasai PH (1973) Mercury photo-sensitized oxidation of primary and secondary aliphatic amines J Am Chem Soc 95(2) 617-618... 

Nitroxyl radicals (AmO ) are known to react rapidly with alkyl radicals and efficiently retard the radical polymerization of hydrocarbons [7]. At the same time, only aromatic nitroxyls are capable of reacting with alkylperoxyl radicals [10,39] and in this case the chain termination in the oxidation of saturated hydrocarbons occurs stoichiometrically. However, in the processes of oxidation of alcohols, alkenes, and primary and secondary aliphatic amines in which the chain reaction involves the HOT, >C(0H)02 , and >C(NHR)02 radicals, possessing the... 

Unsymmetrical secondary aliphatic amines have been prepared by reaction of alkyl halides with benzylidene amines and subsequent hydrolysis 814 by reaction of alkyl halides with alkyl amines 5 by reduction of amine-aldehyde adducts 8-8 and by dealkylation of tertiary amines with dibenzoyl peroxide. ... 

Pyridine (and quinoline) which in so many respects are aromatic and comparable to benzene, lose this character completely on hydrogenation to piperidine (and hydroquinoline), which are entirely of the same nature as secondary aliphatic amines. The completely hydrogenated heterocyclic bases undergo degradation reactions which have become important particularly in the investigation of the constitution of alkaloids. A. W. Hofmann s method of opening rings by means of exhaustive methylation may be illustrated with piperidine. By thermal decomposition of the quaternary ammonium base a C—N-link-age is broken and at the same time water is eliminated. 

Secondary aliphatic amines 48JOC471 62J A635 64JMC68 69J A6683 ... 

Sodium cyanoborohydride NaBIpCN in methanol is the reagent of choice for the reductive alkylation of ammonia, primary aliphatic and aromatic amines and secondary aliphatic amines with aldehydes and relatively unhindered ketones (equation 53). 

Phenylphosphinic acid and dialkyl sulphoxides are alternatives for, respectively, the reducing agent (formic acid) and the alkylating agent (an aldehyde) used for the TV-alkylation of secondary aliphatic amines (the Eschweiler-Clarke procedure) (equation 55b)166. 

Very high yields of IV-t-butyloxycarbonylamines are obtained when solutions of hydrochlorides of primary or secondary aliphatic amines in methanol or ethanol are treated with di-t-butyl dicarbonate and ultrasound is applied until carbon dioxide is no longer evolved, e.g. equation 109. PhCH(OH)CHMeNHMe is acylated only at the nitrogen atom under these conditions349. 

Primary aliphatic or aromatic amines RNH2 are converted into carbamates RNHCC Et on treatment with carbon monoxide and di-t-butyl peroxide in the presence of palladium(II) chloride and copper(II) chloride357. Carbamic esters 304 and 305 are also obtained from aliphatic amines and ortho carbonates (R30)4C358. Vinyl carbamates R12NC02CH=CHR2 are produced from secondary aliphatic amines, acetylenes R2C=CH (R2 = Bu or Ph) and carbon dioxide in the presence of ruthenium(III) chloride359. 

Secondary aliphatic amines, such as diethylamine, pyrrolidine or piperidine, react with the electron-poor nitrate ester 2-(trifluoromethyl)-2-propyl nitrate (369) under neutral conditions to afford the corresponding W-nitro derivatives 370412. 

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