Catalysis aromatic substitution

The development of methods for aromatic substitution based on catalysis by transition metals, especially palladium, has led to several new methods for indole synthesis. One is based on an intramolecular Heck reaction in which an... 

In discussing base catalysis it will prove convenient to adopt, at the outset, a distinction first proposed by Bunnett and Garst22, who noted that the observed cases of catalysis in nucleophilic aromatic substitution could be broadly divided into two categories. The classification was in terms of the relative rates of the catalyzed and uncatalyzed reactions. Since all of the systems could be accommodated empirically by eqn. (4),... 

Bifunctional catalysis in nucleophilic aromatic substitution was first observed by Bitter and Zollinger34, who studied the reaction of cyanuric chloride with aniline in benzene. This reaction was not accelerated by phenols or y-pyridone but was catalyzed by triethylamine and pyridine and by bifunctional catalysts such as a-pyridone and carboxylic acids. The carboxylic acids did not function as purely electrophilic reagents, since there was no relationship between catalytic efficiency and acid strength, acetic acid being more effective than chloracetic acid, which in turn was a more efficient catalyst than trichloroacetic acid. For catalysis by the carboxylic acids Bitter and Zollinger proposed the transition state depicted by H. 

Bifunctional catalysis has also been observed by Pietra and Vitali35 for a more typical nucleophilic aromatic substitution reaction, that of 2,4-dinitrofluorobenzene and piperidine in benzene. For this reaction triethylamine does not have an... 

It has also been argued10,40 that the second mechanism (rapid, reversible interconversion of II and IV) cannot be general. The basis for this contention is the fact that electrophilic catalysis is rare in nucleophilic aromatic substitution of non-heterocyclic substrates, an exception being the 2000-fold acceleration by thorium ion of the rate of reaction of 2,4-dinitrofluorobenzene with thiocyanate... 

Upon calcination the template is removed and the zeolite s well-defined pores are available for adsorption and catalysis. Particularly challenging is the field of electrophilic aromatic substitution. Here often non-regenerable metal chlorides serve as the catalyst in present industrial practice. Zeolites are about to take over the job and in fact are doing so for aromatic alkylation. 

Aromatic Substitution By Meta Catalysis or Other Complex Mechanisms I 479... 

Aromatic Substitution By Metal Catalysis or Other Complex Mechanisms 481... 

Monoalkylation of a-isocyano esters by using tert-butyl isocyano acetate (R = fBu) has been reported by Schollkopf [28, 33]. Besides successful examples using primary halides, 2-iodopropane has been reported to produce the a-alkylated product (1) as well by this method (KOfBu in THF). In the years 1987-1991, Ito reported several methods for the monoalkylation of isocyano esters, including the Michael reaction under TBAF catalysis as described earlier [31], Claisen rearrangements [34], and asymmetric Pd-catalyzed allylation [35]. Finally, Zhu recently reported the first example of the introduction of an aromatic substituent by means of a nucleophilic aromatic substitution (Cs0H-H20, MeCN, 0°C) in the synthesis of methyl ot-isocyano p-nitrophenylacetate [36]. 

In a number of classes of systems, the catalytic and other chemical effects of metal ions on reactions of organic and inorganic molecules are generally recognized the catalysis of nucleophilic reactions such as ester hydrolysis the reactions of alkenes and alkynes in the presence of metal carbonyls (8, 9, 69) stereospecific polymerization in the presence of Ziegler catalysts (20, 55, 56) the activation of such small molecules as H2 (37), 02 (13), H202 (13), and possibly N2 (58) and aromatic substitution reactions of metal-cyclopentadienyl compounds (59, 63). 

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