The homochiral phosphinic azides (R,R)-1 and (S,S)-1 were prepared in enantiomerically pure form by resolution of diastereomeric phosphinamides derived from (S)-l-phenylethylamine and (R)-phenylglycine. Irradiation of the azides in methanol induced a photo-Curtius rearrangement to phosphonamidates in which the stereogenic carbon unit migrated to a nitrogen atom. Hydrolysis of the phosphonamidates produced 1-phenylethylamine, which was 99.0% e.e. and of the same configuration as the carbon unit in the starting azide (99.0% retention).