Arylnitrenes intermolecular reactions

Whereas the production of arylnitrenes by the deoxygenation of nitrosobenzenes or nitro-benzenes by trivalent phosphorus reagents and their subsequent intramolecular ring expansion to 3//-azepines are well-known processes, the corresponding intermolecular reactions to form 1//-azepines have been exploited only on rare occasions and appear to be of little preparative value. For example, the highly electrophilic pentafluorophenylnitrene, obtained by deoxygenation of pentafluoronitrosobenzene with triethyl phosphite in benzene solution, produced a low yield (2-10%) of l-(pentafluorophenyl)-l//-azepine, which was isolated as its [4 + 2] cycloadduct with ethenetetracarbonitrile.169 With anisole as the substrate l-(pentafluorophenyl)-l//-azepin-2(3//)-one (16% bp 128 —130 C/0.4 Torr) was obtained. 

Some intermolecular reactions of arylnitrenes and benzazirinesf are outlined in Scheme 1. 

Nitrenes were first proposed as reactive intermediates in the Lossen rearrangement by Tiemann in 1891, and subsequently by Stieglitz (1896) to account for the mechanisms of the related Hofmann, Curtius, and Beckmann rearrangements. Apart from an extensive amount of work by Curtius on the thermal decomposition of aryl and sulphonyl azides, interest in nitrenes declined until the reemergence of carbene chemistry in the 1950s. Reviews on nitrene chemistry by Kirmse (1959), Horner (1963), and Abramovitch (1964) reflected this renewed interest in nitrenes and provided a stimulus for the immense research effort undertaken in the 1960s, which has been surveyed in many reviews and two books.Of particular note are two chapters by Abramovitch" describing all facets of nitrenes, and an excellent chapter devoted specifically to aryl- and hetarylnitrenes by P. A. S. Smith. The present chapter is intended to update these reviews and it is hoped that it will stimulate further work, particularly on the synthetic aspects of intermolecular arylnitrene reactions. 

Intramolecular substitution by arylnitrenes has been known for a long time and the cyclization of o-azidobiphenyls to carbazoles is representative of an important series of nitrene reactions that yield heterocycles. Only fairly recently has an intermolecular counterpart of these reactions been observed. Originally when phenyl azide was thermolyzed in benzene only azobenzene (11%), aniline (18%), and tars were obtained, and no diphenylamine was found. Abramovitch considered that phenylnitrene is not sufficiently electrophilic to attack benzene, so he decomposed a series of aryl azides (bearing strongly electron-withdrawing substituents, NO2, CN, CF3) in solvents activated... 

Intramolecular cyclization reactions of arylnitrenes by aromatic substitution (singlet), C-H aliphatic insertion, and attack on ortho nitrogen functions are usually very much more facile than their intermolecular counterparts. 

The enzyme-mediated transformation of a hydroxylamino arene into an ortho-2Vcm-nophenol corresponds to a chemical rearrangement known as the Bamberger reaction (25), which generates the 4-aminophenol from hydroxylaminobenzene under acidic conditions. It is likely that this intermolecular rearrangement proceeds via an arylnitrene, which by the additional function of a hydroxylamino lyase can generate protocatechuate plus ammonia rather than 4-amino-3-hydroxybenzoate from 4-hydroxylaminobenzoate. 

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