Amine propylamine

Next analyzed was the behavior of the third quadrant amines, propylamine (PrAM) and cyclopropylamine (CprAM). Surprisingly, PrAM not only did not favor the formation of DHQ, but also decreased the conversion rate of Q in comparison to data observed in the absence of amine, suggesting an effective... 

A series of 16 molecules, which include different monofunctional compounds, were chosen to determine the enthalpy of solvation in water. Besides four hydrocarbons (hexane, heptane, octane and cyclohexane) and water, the series of molecules include alcohols (2-methylpropan-2-ol, 1-butanol and 2-butanol), ethers (diethylether, tetrahydrofuran and tetrahydropyran), amines (propylamine, butylamine, diethy-lamine and dibutylamine) and piperidine. This choice allows us to examine the differences between different functional groups, as well as the influence of the molecular size on the enthalpic contributions for a given series of monofunctional compounds. Free energies of hydration as well as the corresponding enthalpies taken from the data compiled by Cabani and coworkers [26] are shown in Table 4-1. 

Talamoni and coworkers found that in methanol, allylamine has no influence on the yield of o-Ps. Other amines, such as n-propylamine and triethylamine, increase the yield of the o-Ps. The authors ascribe this difference to the higher ionization potential of allylamine, making positive charge transfer from the solvent ions (the holes) ineffective. The ionization potential of allylamine (9.6 V) is considerably higher than that of other amines ( -propylamine 8.8 eV, triethylamine 7.8 eV, aniline 7.7 eV). They found a correlation between the ionization potentials and the enhancement factors. In water, allylamine also enhances the formation of o-Ps, due to the much higher ionization potential of water, 12.6 eV (while the value for methanol is only 10.8 eV). 

B) Secondary amines, (i) Aromatic amines. Monomethyl and monoethylaniline, diphenylamine. (ii) Aliphatic and other amines. Diethyhmine, di-n-propylamine, di-isopropylamine. Also piperidine piperazine diethylene-diamine). 

Propylamine (pnmary amine) N Methylethylamine (secondary amine) Tnmethylamine (tertiary amine)... 

Amines Methylamine Dimethylamine Ethylamine Diethylamine Propylamine Dipropylamine Isopropylamine Diisopropylamine Butylamine ferf-Butylamine Allyl amine Cyclohexylamine... 

The lithium- -propylamine reducing system has been found capable of reducing julolidine (113) to /d -tetrahydrojulolidine (114, 66% yield) and 1-methyl-1,2,3,4-tctrahydroquinoline to a mixture of enamines (87% yield), l-methyl-J -octahydroquinoline (115) and 1-methyl-al -octahydro-quinoline (116) 102). This route to enamines of bicyclic and tricyclic systems avoids hydroxylation, which occurs during mercuric acetate oxidation of certain bicyclic and tricyclic tertiary amines 62,85 see Section III.A). 

A search has not been made for products of displacement of halogen from the benzo-ring in polyhalo compounds, but it is clear that the major mono-substitution occurs in the azine ring. For example, 2,6- and 2,7-dichloroquinoxalines give 70-80% of the 2-amination product with )S-diethylaminoethylamine (150°, 2 hr) or y-(l-piperidyl)-propylamine (220°, 2 hr). 2,3,6-Trichloroquinoxaline gives with... 

Prenyl amine (66) was long used in the treatment of angina pectoris, in which condition it was believed to act by inhibiting the uptake and storage of catecholamines in heart tissue. Droprenilamine (69), an analogue in which the phenyl ring is reduced, acts as a coronary vasodilator. One of several syntheses involves simple reductive alkylation of 1,1-diphenyl-propylamine (67) with cyclohexyl acetone (68)... 

Properties of PS-A and PS-B (Shimomura, 1991b Shimomura et al., 1993b). Both PS-A and PS-B are colorless viscous liquid, and their absorption spectra resemble that of panal (Fig. 9.6). By NMR analysis and mass spectrometry, PS-A and PS-B are found to be 1-O-decanoylpanal and 1-O-dodecanoylpanal, respectively. As a minor component, 1-O-tetradecanoylpanal has also been isolated. PS-A and PS-B gain chemiluminescence activity when treated with the salt of primary amines (see below for the conditions). Taking the activity obtained with methylamine as 100%, the activities obtained with other amines were ethylamine, 38% ethanolamine, 10% propylamine, 20% hexylamine, 3% and decylamine, 1%. 

N-Methyl-N-f2-Nitroxy propyl) Nitramine. (Me2NENA N-(2-NitroxypropyI) methyl nitramine. (02N)N(CH3).(CH2CH(0N02).CH3, mw 179.16, N 23.46%, OB to C02 -66.80%, pale yellow oil, mp 22—23°, d 1.320g/cc at 25/4°, RI 1.478 at 25°. Prepn from 2-hydroxy-propylamine after nitration with 98% nitric acid at 10° by reaction of the amine-nitric acid mixt with acetic anhydride acetyl chloride at 35°. Reaction mixt poured on ice. Yield is 74%. No expl properties listed Reft 1) Beil - not found 2) Blomquist, OSRD 4134, 45 119 (1944)... 

Relative rates of alkylation of toluene and benzene using a mixture of nitro-sonium hexafluorophosphate, nitromethane (or acetonitrile) and aliphatic amine as the alkylations agent have been determined at 25 °C as follows360 1.5 (ethyl-amine), 2.5 (i-propylamine) and 3.5 (benzylamine) nothing more as yet is known about the kinetics of alkylation with these new alkylating reagents. 

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. 

Propylamine, 3 chloro A, TV dimethyl ], hydrochloride, 55, 128 1-PROP AN AMINE, 3,3 -(phenylphosphini-denc)bis(A, A -dimethyl)- [Phosphine, phenyl-, bis(3-dimethylammopro-... 

Verhaak et al. [2] have shown convincingly that the reactions leading to the secondary and tertiary amines involve the support. The by-product 1-propylaminopropene which we observed is presumably formed via attack of propylamine on propylimine, followed by elimination of NH3, as shown below ... 

Oxidative carbonylation generates a number of important compounds and materials such as ureas, carbamates, 2-oxazolidinones, and aromatic polycarbonates. The [CuX(IPr)] complexes 38-X (X = Cl, Br, I) were tested as catalysts for the oxidative carbonylation of amino alcohols by Xia and co-workers [43]. Complex 38-1 is the first catalyst to selectively prepare ureas, carbamates, and 2-oxazolidinones without any additives. The important findings were the identity of the counterion and that the presence of the NHC ligand influenced the conversions. 2-Oxazohdinones were formed from primary amino alcohols in 86-96% yield. Complex 38-1 also catalysed the oxidative carbonylation of primary amines to ureas and carbamates. n-Propylamine, n-butylamine, and t-butylamine were transformed into the... 

A variety of cleavage conditions have been reported for the release of amines from a solid support. Triazene linker 52 prepared from Merrifield resin in three steps was used for the solid-phase synthesis of aliphatic amines (Scheme 22) [61]. The triazenes were stable to basic conditions and the amino products were released in high yields upon treatment with mild acids. Alternatively, base labile linker 53 synthesized from a-bromo-p-toluic acid in two steps was used to anchor amino functions (Scheme 23) [62]. Cleavage was accomplished by oxidation of the thioether to the sulfone with m-chloroperbenzoic acid followed by 13-elimination with a 10% solution of NH4OH in 2,2,2-trifluoroethanol. A linker based on l-(4,4 -dimethyl-2,6-dioxocyclohexylidene)ethyl (Dde) primary amine protecting group was developed for attaching amino functions (Scheme 24) [65]. Linker 54 was stable to both acidic and basic conditions and the final products were cleaved from the resin by treatment with hydrazine or transamination with ra-propylamine. 

A template synthesis employing Ni(OAc)2, 2,5-dihydroxy-2,5-dimethyl-1,4-dithiane, and 3,3 -iminobis(propylamine) gave the water-soluble five-coordinate complex [Ni(495)], the crystal structure of which shows trigonal bipyramidal coordination of Ni11 with the central amine and terminal thiolates in plane and the two imino nitrogens in axial positions. Solvatochromism of the complex is interpreted in terms of S" H bonding, which may be of relevance to the catalytic cycle in hydrogenases.1341... 

To synthesize new surfactants, having incorporated both structural elements, the known siloxanyl modified halogenated esters and ethers of dicyclopentadiene [5] were treated with different amines according to the reaction scheme. Triethylamine yielded quaternary ammonium salts directly. Alternatively, after reaction with diethylamine or morpholine, the isolated siloxanyl-modified tertiary amines were also converted to quaternary species. To obtain anionic surfactants, the halogenated precursors were initially reacted with n-propylamine. In subsequent reaction steps the secondary amines formed were converted with maleic anhydride into amides, and the remaining acid functions neutralized. Course and rate of each single reaction strongly depended on the structure of the initial ester or ether compound and the amine applied. The basicity of the latter played a less important role [6]. 

Amino acids labeled with DNS-C1 were determined using the Ru(bpy)32+ CL reaction after HPLC separation with a reversed-phase column [104, 105], DNS derivatives are expected to produce intense CL owing to their secondary and tertiary amino groups. The detection limit for DNS-Glu was 0.1 pM (2 pmol/ injection). Although underivatized amino acids could be detected by Ru(bpy)32+ CL, the DNS derivatives showed improved detection limits by three orders of magnitude [105], An approach to convert primary amines to tertiary amines was also reported [106], In this method, divinyl sulfone (DVS) was used for a cycloaddition reaction of primary amines (Fig. 19). The DVS derivatives after HPLC separation were sensitively detected (e.g., detection limits for propylamine and 3-aminopentane were 30 and 1 pmol, respectively). 

Figure 10 Separation of ABEI-DSC-derivatized n-octylamine (2) and n-propylamine (3) with ECL detection. Remaining ABEI (1) and ABEI DSC (not shown) are also detected. Conditions 20% methanol in 5 mM sodium borate separation buffer, pH 10.9 5-s injection at 25 kV, 1.0 X 10 6 for each labeled amine 25-kV separation potential 10-mm platinum wire electrode. (From Ref. 85, with permission.)...

Microsomal oxidation of amines and phenols may proceed by different ways. For example, it has been shown [42] that phentermine (2-methyl-l-phenyl-2-propylamine) is hydro-xylated to /V-hydroxyphcntcrminc by rat liver cytochrome P-450 system through a normal cytochrome P-450 way ... 

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