Ethyl-«-hexylamine

Ethyl hexylamine Hexetidine Ethyl glycinate HCI Caroxazone... 

Ethylene carbonate, reaction with potassium thiocyanate, 42, 59 Ethylene sulfide, 42, S9 Ethyl formate, reaction with cyclo-hexylamine, 41, 14 Ethyl- -hexylamine, 43, 47 5-(2-Ethylhexyl)-l,2,3,4,5-pentachloro-cyclopentadiene, 43, 93 Ethylhydrazinium hydrogen oxalate,... 

Beilstein Handbook Reference) AI3-26287 1-Amino-2-ethylhexan Armeen LSD BRN 1209249 CCRIS 4646 EINECS 203-233-8 1-Hexanamine, 2-ethyl- P-Ethylhexylamine 2-Ethyl hexylamine 2-Ethylhexanamine 2-Ethylhexylamine Hexylamine, 2-ethyl- UN2276. A chemical intermediate for vapor phase corrosion inhibitors. Akzo Chemie. 

Phenyl-3-oxopropanoic acid (25 mmol) and EtjN (87.5 mmol) were dissolved in THF (150 ml) and cooled to —40°C. Ethyl chloroformate (27.5 mmol) was added dropwise to this solution and then the reaction mixture was stirred for 30 min at —20°C. Di-n-hexylamine (27.5 mmol) was added to the suspension and it was stirred at room temperature for an additional hour. The reaction mixture was diluted with water (100 ml) and extracted with ether (400 ml). The extract was washed with aq. 5% HCl (100 ml) and brine (2 X 100 ml) and dried over NajSO. The crude amide was obtained by removal of the solvent in vacuo and phenylhydrazine (25 mmol) was added. The mixture was heated to 100°C for 30 min. The residue was held in vacuo to remove the water formed and then powdered ZnCl2 (125 mmol) was added. The mixture was heated at 170"C with manual stirring for 5 min. The cooled residue was dissolved in acetone (100 ml) and diluted with ether (500 ml). Water (100 ml) was added. The organic layer was separated and washed successively with 5% aq. HCl (100 ml) and brine (2 x 100 ml) and dried over NajSO. The solvent was removed in vacuo, and the residue was recrystallized from EtOAc-hexane. The yield was 79%. 

M-Hexyl alcohol has been prepared by the reduction of ethyl caproate by means of sodium and absolute alcohoB alone or in anhydrous ammonia solution by the reduction of -caproamide by means of sodium and absolute alcohol by the reduction of -caproaldehyde by means of sodium amalgam in dilute sulfuric acid and by means of living yeast, It has also been produced by the action of nitrous acid upon w-hexylamine by the action of sodium upon a mixture of ethyl alcohol and M-butyl alcohol ... 

The procedure is illustrative of a general method of ethylating amines, wherein one reacts the amine with ethylene using an alkali-metal salt of the amine as catalyst.2 Di- -butylamine and -hexylamine have been thus ethylated at 130-160°, aniline, o-toluidine, and N-methylaniline at 240-275°. In general, higher olefins add to amines only sluggishly.2... 

Despite this superficial similarity, however, subtle differences between the behaviour of ionized amines and the analogous ionized alcohols and ethers remain. Thus, metastable ionized 2-butylamine loses 80% ethane in contrast, ionized 2-butanol eliminates both ethane (35%) and methane (40%)85. The latter reaction corresponds to loss of the smaller methyl group and an a-hydrogen atom from the larger ethyl substituent at the branch point. Methane loss does not occur from ionized amines with a methyl substituent on the -carbon, with the solitary exception of ionized isopropylamine which does expel methane (10%). However, ionized 3-hexylamine eliminates both ethane (35%) and propane (20%)85. 

Fig. 7. Conversion-time curves for polymerization of NCA s (0.224 mole l l) with amines (0.015 mole l-1) at 25 C in iV.iV-dimethylformamide. O y-Ethyl-L-glutamate NCA-di-isopropylamme A y-Ethyl-L-glutamate NCA-n-hexyl-amine Q Sarcosine NCA-di-isopropylaraine Sarcosine NCA-n-hexylamine. (Reprinted from paper by C, H. Bamford, and H. Block Polyamino Acids, Polypeptides and Proteins, p, 65, Wisconsin University Press 1962 (Fig. 7)3...

A rhodium catalyst [Rh(cod)Cl]2 was applied at 140°C and 100 bar to achieve a yield of 99% in hydroaminomethylation of ethyl oleate and morpholine. Several amines were tested in the reaction with fatty compounds hexylamine, benzylamine, aspartic diethyl acid, valinol, and diisopropylamine are further amines which can be employed in hydroaminomethylation. The conversion with primary amines showed that hydroaminomethylation can proceed twice on the amine. The dimer fatty acid ester bridged with an amine is a highly functionalized molecule with various applications. An excess of the primary amine during the reaction prohibits the reaction of the hydroformylation product with a secondary amine which is the product of hydroaminomethylation with the primary amine (Scheme 19). 

Fig. 2. Conversion—time curves for polymerization of NCAs (0.224 mole 1 ) initiated by amines at 25°C in i i,AT-dimethylformamide solution, o 7-ethyl-L-glutamate NCA/di-isopropylamine, sarcosine NCA/n-hexylamine, 7-ethyl-L-glutamate NCA/n-hexylamine, Dsareosine NCA/di-isopropylamine. Bamford and Block [22],...

Hexylamine is converted into capronitrile in 73% yield on refluxing with nickel peroxide in benzene for 1.5 h [936]. Octylamine is dehydrogenated to octanenitrile in 60% yield by treatment with sodium hypochlorite and tetrabutylammonium hydrogen sulfate in ethyl acetate at room temperature for 35 min [692], The preparation of benzonitrile is shown in equation 514 [196, 381, 1136]. 

N-Cyclohexylformamide, prepared by slowly adding ethyl formate to cyclo-hexylamine with stirring and cooling, is an intermediate in an efficient method for conversion of the amine to cyclohexyl isocyanide. ... 

Pnparation. The reagent is prepared by reaction of tri- -hexylamine with ethyl iodide in ethyl acetate and conversion of the resulting insoluble quaternary iodide into the hydroxide form by passage through Dowex-1 ion exchange resin. 

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