Catalysis base-catalyzed exchange

Base catalysis is most effective with alkali metals dispersed on solid supports or, in the homogeneous form, as aldoxides, amides, and so on. Small amounts of promoters form organoalkali comnpounds that really contribute the catalytic power. Basic ion exchange resins also are usebil. Base-catalyzed processes include isomerization and oligomerization of olefins, reactions of olefins with aromatics, and hydrogenation of polynuclear aromatics. 

It is obvious that the primary amines formed in this reaction will be uncontaminated by secondary or tertiary amines (unlike 10-44). The reaction is usually rather slow but can be conveniently speeded by the use of a dipolar aprotic solvent such as DMF or with a crown ether. Hydrolysis of the phthalimide, whether acid or base catalyzed (acid catalysis is used far more frequently), is also usually very slow, and better procedures are generally used. A common one is the Ing-Manske procedure,in which the phthalimide is heated with hydrazine in an exchange... 

Fig. 9.2. Simplified reaction mechanisms in the hydrolytic decomposition of organic nitrites. Pathway a Base-catalyzed hydrolysis with liberation of nitrite. Pathway b Reversible nitro-syl exchange between organic nitrites and alcohols. Pathway c General acid catalysis with concerted mechanism in the acid hydrolysis of organic nitrites.

Both acid and base catalysis have been used extensively to catalyze exchange in aromatic, and to a lesser extent, heterocyclic molecules. In acid exchange, the most widely used catalysts are sulfuric acid,122,129, 131 phosphoric acid,132 trifluoroacetic acid5133 perchloric acid,134 aluminum chloride,135 and the phosphoric acid-boron trifluoride complex.132 These reactions constitute the simplest electrophilic substitution. The mechanism for such substitution in benzenoid compounds is now comparatively well understood 122 however, the problem of heteroaromatic electrophilic substitution is still being clarified and has led to renewed interest in acid-catalyzed exchange in heterocyclic compounds.122... 

The HDN of aliphatic amines (equation 25) is relevant to the HDN of indoles (equation 26), pyridine (equation 27), and quinoline (equation 28) because these heterocycles are first hydrogenated to the aliphatic amines. A general mechanism proposed for the HDN of aliphatic amines is based on metal cluster catalysis of the transalkylation reaction in equation (33) and on metal complex catalyzed exchange of deuterimn for hydrogen in tertiary aliphatic amines (equation 34). There are other examples of amine activation in metal complexes. 

The reaction of acylimidazoles with imidazole is subject to both imidazole and imidazolium ion catalysis (Fife, 1965). The latter reaction is no doubt due to the imidazole-catalyzed hydration of acetylimidazolium ion, as in 18, and fully analogous to the N-methylimidazole-catalyzed hydrolysis of N-acetyl,N -methylimidazolium ion. The mechanism of the former reaction is undefined at the present time, since no 0 exchange studies have been performed with acylimidazoles in more alkaline solution where imidazole catalysis occurs. The leaving group, the imidazole anion, is quite basic (piC = 14-5) therefore it is possible that general base-catalyzed decomposition of the neutral tetrahedral intermediate (24) or general acid-assisted decomposition of the anionic tetrahedral intermediate (25) may occur. The general base-catalyzed alkaline hydrolysis of amides most probably occurs by the... 

Many organic compounds can also be prepared by isotopic exchange, often with the aid of acid or base catalysis. Many alcohols can be prepared by acid catalyzed exchange (see Grunwald et al., 1957, and previous papers) but the formation of olefins, ethers, and rearranged products causes difficulties in purification and reduces the yield considerably. 

The reaction takes place extremely rapidly and if D2O is present in excess all the alcohol is con verted to ROD This hydrogen-deuterium exchange can be catalyzed by either acids or bases If D30 is the catalyst in acid solution and DO the catalyst in base wnte reasonable reaction mech anisms for the conversion of ROH to ROD under conditions of (a) acid catalysis and (b) base catalysis... 

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