New perspectives in the chemistry of nitrile oxides

Fkactivity of nitrile oxides (1) towards both dimerization and cycloaddition with dipdarophiles can be inhibited by catalytic amount of tris-(4\_bromophenyl)-aminium hexachloroantimonate and dsequently restored.

The cycloaddition of bromonitrile oxide to monosubstituted ole,Gs has a high regioselectivity yielding 3-bromo-S-substhuted isoxazolines contaminated by minor amounts (4-9%) of the I-substituted isomer. The adducts of bromonitrile oxide to ally1 a3lcohol and N-protected allylamine were employed as h

Thermal decomposltlon of 1-azidohydrazones iI] results in tricyclic products [III], probably arising from nitrene intermediates through an mtramolecular cycloaddition to the ethylemc bond. Despite l-azldohydrazones may be seen as potential intermediates in heterocyclic syntheses,

Original dehydrating reagents for the efficient formation of nitrile oxides from primary nitro compounds are reported. Burgess salt, DAST, acetic anhydride and oxalyl chloride were shown to be useful reagents to perform this transformation.