Basicity amines

Citing amine basicity according to the of the conjugate acid permits acid-base reac tions involving amines to be analyzed according to the usual Brpnsted relationships For example we see that amines are converted to ammonium ions by acids even as weak as acetic acid... 

The unshared pair of electrons on the nitrogen atom provides the basic character to the fatty amines. Basicity of amines has been deterrnined as... 

Yields depend on the reactivity of the amines and the choice of reaction conditions, including the choice of copper catalyst. Generally, the reactivity increases with increasing amine basicity. Thus, i7n7-toluidine (pTf = 5.1) reacts four times faster than aniline (pif = 4.7) (27). StericaHy hindered amines such as 3,5-di-amino-2,4,6-trimethylbenzenesulfonic acid react very slowly. 

Pyrimidin-5-amine, 4-methylamino-synthesis, 3, 121 Pyrimidin-5-amine, 4-oxo-purfne synthesis from, 5, 582 Pyrimidinamines acylation, 3, 85 alkylation, 3, 86 basic pXa, 3, 60-61 diazotization, 3, 85 Dimroth rearrangement, 3, 86 electrophilic reactions, 3, 68 Frankland-Kolbe synthesis, 3, 116 hydrolysis, 3, 84 IR spectra, 3, 64 N NMR, 3, 64 nitration, 3, 69 Principal Synthesis, 3, 129 reactivity, 3, 84-88 structure, 3, 67 synthesis, 3, 129 Pyrimidin-2-amines alkylation, 3, 61, 86 basic pK , 3, 60 diazotization, 3, 85 hydrogenation, 3, 75 hydrolysis, 3, 84 mass spectra, 3, 66 Pyrimidin-4-amines acidity, S, 310 alkylation, 3, 61, 86 basic pXa, 3, 61 Schifi base, 3, 85 synthesis, 3, 110, 114 1,3,5-triazines from, 3, 518 Pyrimidin-5-amines basic pXj, 3, 61 hydrogenation, 3, 75 reactions... 

Pyrimidine-2,4,5-triamine, 6-hydroxy-as cofactor of phenylalanine hydroxylase, 1, 261 Pyrimidine-2,4,5-tri amines basic p/fa, 3, 61 Pyrimidine-2,4,6-triamines synthesis, 3, 115... 

This reaction is believed to proceed via an amidine (34) and it has been shown that the reactivity of the nitrile group toward nucleophiles is a more important factor than amine basicity in controlling cyclization. 

As a first approximation, within a given family of nucleophilic reagents, such as amines, basicity changes are mainly responsible for differences in nucleophilic power. The p values of some of the more familiar amines together with the rate constants for some of their reactions with chloroheteroaromatic compounds are shown... 

Table 24.1 lists pXa values of some ammonium ions and indicates that there is a substantial range of amine basicities. Most simple alkylainines are similar in their base strength, with p/q/s for their ammonium ions in the narrow range 10 to 11. Aiylctmines, however, are considerably less basic than alkylamines, as are the heterocyclic amines pyridine and pyurole. 

Neutralizing capacity is not the only measure of a required amine feed rate. Once all acidic characteristics have been neutralized, amine basicity becomes the important issue because this raises the pH above the neutralization point, to a more stable and sustainable level. Consequently, in practice we are concerned with the level of amine necessary to raise the condensate pH to a noncorrosive level. This practical amine requirement is difficult to obtain from theoretical calculations because it must take account of the amine volatility, DR, and the boiler system amine recycling factor (as well as temperature). As noted earlier, the basicity of an amine has little or no relationship to its volatility or DR, so that reliable field results are probably a more important guide in assessing the suitability of an amine product than suppliers tables. 

From a practical perspective, amine basicity is clearly an important functional property because (as has been noted) when temperatures rise and Kb decreases, amine concentration must increase simply to maintain pH level. Often a sharp increase in concentration is needed to actually raise the pH. 

To determine relative amine basicity cost-effectiveness for a specific amine concentration, compare amine Kb (at the desired operating temperature and pH) to amine cost for each of various neutralizers under consideration. 

Other nitrogen compounds, among them hydroxylamine, hydrazines, and amides (15-9), also add to alkenes. Even with amines, basic catalysts are sometimes used, so that RNH or R2N is the actual nucleophile. Tertiary amines (except those that are too bulky) add to Michael-type substrates in a reaction that is catalyzed by acids like HCl or HNO3 to give the corresponding quaternary ammonium salts. " ... 

Amine basicity is related to the presence of a lone pair of electrons on the nitrogen atom. Usually the interaction of an amine with an acid is not dangerous. There can be an accident when the acid-base complex formed is unstable or the operating mode is not correct. 

The results obtained with different amines cannot be explained merely on the effects of amine basicity. Thus, to obtain complete hydrogenation of Q to DHQ, the basicity has to be tailored by other factors such as the steric hindrance of the amine and its electronic interaction with the catalyst active sites this seems to be favored by the presence of an electron-rich aromatic ring. Of note, the positive effect of substituted aromatic amines, with a 49% DHQ yield being obtained for ethylanilines, is independent of the substituent position of the alkyl group. 

Fluorine has been used to modulate the basicity of amines which may lead to an improvement in brain exposure. Recently, the discovery of a series of a4(32 nicotinic acetylcholine receptor (nAChR) potentiators as possible treatment for Parkinson s disease and schizophrenia was were disclosed [40]. Optimization of isoxazole 40 included the bioisosteric replacement of the central amide by an imidazole ring. Introduction of a fluorine at the 6-position of the phenyl ring provided compound 41. This compound had excellent potency but was determined to be a substrate for P-gp (efflux ratio >10). In an attempt to reduce amine basicity and decrease the efflux propensity, the 4-fluoropiperidine 42 was identified which retained potency and had significantly reduced P-gp efflux liability (efflux ratio 1). CNS penetration of 42 was observed in rodents following intraperitoneal (IP) treatment at 5mg/kg and showed a brain concentration of 6.5 gM. 

On studying a series of ammonium 1,3,2,5-dioxaborataphosphorinane oxides (111), the dependence of the tautomeric equilibrium position on amine basicity was analyzed. The equilibrium position was estimated from chemical shift values of bis(oxymethyl)phenylphosphine oxide with 8 3IP of 35 ppm being used as a model of an acyclic form and 5-Ph-5-oxo-1,3,5-dioxaphosphorinane (107, R = H) with 8 3IP of 6 ppm used as a model of a cyclic compound. The chemical shift values (111, X = 0, R = H) and dissociation constants (pKa) of conjugate acids for amines are presented in Table V. 

The nitrogen atoms of the twisted amides discussed on pages 107-108 are to a greater or lesser extent pyramidal, and incipient lone pairs electron density is thus available for reactions with electrophiles. The classic example is the cage lactam [57] first prepared by Pracejus (1959), which has an amide nitrogen with near normal amine basicity. Brown and coworkers have measured rates of alkaline hydrolysis of a series of anilides [58] and [59] with related structures and find that the rate increases with increasing divergence... 

The azo-dyes derived from phenols are called acid dyes, those derived from amines basic dyes. But since, in industry, the starting materials, not only diazo-components (diazotised amines), but also azocomponents (coupled phenols or amines), are nearly always sulphonic acids, this distinction is pointless. The vast majority of the azo-dyes... 

However, in more complicated amines, this straight correlation is violated. The bicyclic tertiary amine l-azabicyclo[4.4.4]tetradecane (22) and the acyclic tertiary amine n-Bu3N have nearly the same first IP (7.84 and 7.90 eV, respectively), but the proton affinity of the bicyclic amine is 20 kcal mol 1 lower than that of the acyclic52. On the other hand, for other bridge-head tertiary amines like l-azabicyclo[2.2.2]octane (quinuclidine, 20) and l-azabicyclo[3.3.3]undecane (manxine, 21) the expected relation between proton affinities and IP values is observed. The extraordinary properties of l-azabicyclo[4.4.4]tetradecane (22) are caused by its unusual conformation the nitrogen lone-pair is directed inward into the bicycle where protonation is not possible. In the protonated form, the strained out-conformation is adopted. This makes it the least basic known tertiary amine with purely saturated alkyl substituents. Its pKa, measured in ethanol/water, is only +0.693. Strain effects on amine basicities have been reviewed by Alder88. 

A report of a more extensive Hammett smdy has included estimates of values of Pacyi for aminolysis of members of the sulfamate ester series (XC6H4NHSO2ONP) in chloroform and acetonitrile using piperidine and a set of five pyridines variation of the pyridines allowed the determination of Ppyr values for several esters. The Pacyi values become less negative with decrease in amine basicity, apparently as a consequence of diminished H cleavage and a progression from a partial carbanion-like transition state to a more central E2 type mechanism (10). 

Weisburger EK. 1983. Species differences in response to aromatic amines. Basic Life Sci 27 23-47. 

Weisburger EK. 1983. Species differences in response to aromatic amines. Basic Life Sci 27 23-47. Werner R. Uehleke H, Wohrlin R. 1976. Reduction of azobenzene to hydrazobenzene by liver fractions. Naumyn-Schmeidebergs Arch Pharmacol 293 54. 

Reduction (often using NaCNBHs) of the imine formed by an amine and a carbonyl to afford the corresponding amine—basically, reductive amination. 

A large number of nitramine-based explosives have been synthesized via Mannich-type condensation reactions (Section 5.13.2). The amines generated from these reactions often have the powerful electron-withdrawing trinitromethyl or fluorodinitromethyl groups positioned on the carbon a to the amino group. This reduces amine basicity to an extent that A-nitration becomes facile. The energetic nitramines (17), (19) and (21) have been synthesized from the condensation of ethylenediamine with 2,2,2-trinitroethanol, 2-fluoro-2,2-dinitroethanol with ethanolamine, and 2-fluoro-2,2-dinitroethylamine with 2,2-dinitro-l,3-propanediol respectively, followed by A-nitration of the resulting amine bases (16), (18) and (20), respectively. 

All models provide a reasonable account of the effects of remote substituents on the acidity of benzoic acid. The performance of STO-3G and 3-2IG models is comparable to their performance for amine basicities. Also noteworthy is the fact that the 6-3IG basis set is adequate for these types of comparisons, that is, the effect of diffuse functions (in the 6-311+G basis set) largely cancels. Also encouraging (and unexpected), is the excellent account provided by all three semi-empirical models. 

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