Substituent effects acid/amine reaction

Addition of primary amines to carbonyl groups has been the subject of extensive study, notably by Jencks and co-workers.91 The most striking feature of these reactions is the characteristic maximum in the graph of reaction rate as a function of pH.92 Figure 8.10 illustrates the observations for the reaction of hydroxylamine with acetone. It is also found that the sensitivity of rate to acid catalysis,93 and to substituent effects,94 is different on either side of the maximum in the pH-rate curve. These phenomena may be understood in terms of the two-step nature of the reaction. In acetal formation, we saw in Section 8.3 that the second step is rate-limiting in the overall process, and it is relatively easy to study the two steps separately here, the rates of the two steps are much more closely balanced, so that one or the other is rate-determining depending on the pH. 

Several examples were discussed earlier of the use of substituent effects for the elucidation of the mechanisms of silene reactions with nucleophilic reagents. For example, the trends in the rate constants for reaction of the series of 1,1 -diarylsilenes 19a-e with alcohols, acetic acid, amines, methoxytrimethylsilane and acetone all indicate that inductive electron-withdrawing substituents at silicon enhance the reactivity of the Si=C bond, and are consistent with a common reaction mechanism in which reaction is initiated by the formation of an intermediate complex between the silene and the nucleophile. 

A subtle substituent effect is evident in the reactions of (159 equation 66) when the amine (R = alkyl) is subjected to acid-induced rearrangement it gives the hydride migration product (160), whereas the amide (R = acyl) reacts almost exclusively by ring contraction. ... 

Bols and coworkers reported linear free energy relationships for the hydrolysis of glycopyranosides.48 Axial and equatorial substituent effects, determined from amine basicity of similarly configured compounds, were employed.49 The two reactions studied were the spontaneous hydrolysis of 2,4-DNP glycosides, and the specific acid-catalyzed hydrolysis of methyl glycosides (Scheme 21). 

From the results summarized in Table I, apparently the Brpnsted relationship will hold for all combinations of nucleophiles and electrophiles. Because, as pointed out previously, the Hammett equation is really a special case of the Brpnsted relationship, all the legion of nucleophile-electrophile, rate-equilibrium Hammett correlations that have been studied also fall under the scope of the Brpnsted relationship. For example, nucleophilicities of ArO , ArS , ArC(CN)2 , and the other families listed in footnote c of Table I have generally been correlated by the Hammett equation, where the acidities of benzoic acids in water are used as a model for substituent interactions with the reaction site (a), and the variable parameter p is used to define the sensitivity of the rate constants to these substituent effects. The Brpnsted equation (equation 3) offers a much more precise relationship of the same kind, because this equation does not depend on an arbitrary model and allows rate and equilibrium constants to be measured in the same solvent. Furthermore, the Brpnsted relationship is also applicable to families of aliphatic bases such as carboxylate ions (GCH2C02 ), alkoxide ions (GCH20 ), and amines (GCH2NH2). In addition, other correlations of a kinetic parameter (log fc, AGf, Ea, etc.) can be included with various thermodynamic parameters (pKfl, AG°, Eox, etc.) under the Brpnsted label. 

The trityl linkers were introduced to permit anchoring of carboxylic acids and other nucleophiles to a solid support and to effect cleavage reactions under very mild acidic conditions [64-67]. Various trityl resins, such as Ib-le (Table 1), have been developed that differ in the substitution pattern of the aromatic ring substituents in order to modify the cleavage properties by their influence on the stability of the trityl cation. For carboxylic acids, amines, and phenols, the chlorotrityl resin Ic affords a more stable anchor [65-67] than does resin lb. Similarly, resin le, which contains both fluoro and carbonyl ring substituents, proved to be very stable toward nucleophiles and was fully compatible with piperidine / / -Fmoc (9-fluorenylmethoxycar-bonyl) deprotections used in a model peptide synthesis. Cleavage of acids from le could be effected using dilute TFA in dichloromethane [68]. 

Identification of Phenols.—The reactions of phenols which are of particular value in their identification, are those that take place with alkalies, ferric chloride, and bromine water. Most phenols react with an aqueous solution of sodium hydroxide to form soluble salts, but are insoluble in a solution of sodium carbonate. The behavior of phenols with these two reagents shows their weakly acidic properties, and serves to distinguish them from acids. Phenols which contain strongly negative substituents decompose carbonates, and show all the properties of acids. It is difficult, therefore, to identify as a phenol substances which contain such substituents. Ferric chloride produces marked colorations in aqueous solutions of most phenols. The reagent produces a similar effect with certain other compounds, and the formation of a color with ferric chloride can be taken, therefore, only as an indication of the presence of a phenol. With bromine water most phenols yield a precipitate of a brominated phenol. Other compounds, amines for example, are also converted into insoluble substitution-products by bromine water. Notwithstanding this fact the test is of value. Many phenols form colored products when heated with phthalic anhydride and concentrated sulphuric acid. The reaction will be described under phenolphthalein (558, 639). 

Redistribution of the electron density in perfluorinated heterocycles leads to the signihcant increase in the basicity of the fluorine substituent, resulting in an unusual reactivity toward strong electrophiles. This effect makes possible reactions, which are virtually unknown for cyclic hydrocarbons, such as reactions of perfluorinated ethers or amines with strong Lewis (AICI3, SbFs, SO3) or protic acids. Short summaries on these reactions can be found in two reviews... 

The effect of amine substituents in protodehalogenations has been examined qualitatively Iodine is replaced by a proton more easily in -iodo-i, iV-dimethylaniline than in iodoaniline. On the other hand, NH2 is more efficient than NMeg in halogen displacement of the corresponding 2,4,6-triiodoanilines, as a result of the greater steric inhibition of resonance of the bulky dimethylamino group by the ortho iodines. More recentiy, the kinetics of deiodination of p-iodoaniline (reaction 41) in aqueous acid media was shown to be... 

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