69067-19-2Relevant academic research and scientific papers
Unexpected Staudinger reaction of α-azidoacetonitriles α-phenyl substituted with triphenylphospine. Preparation, X-ray crystal and molecular structures of a phosphazine, an aminophosphonium carbanion salt and a phosphazide, with (Z)-configuration
Molina, Pedro,Lopez-Leonardo, Carmen,Llamas-Botia, Javier,Foces-Foces, Concepcion,Fernandez-Castano, Cristina
, p. 9629 - 9642 (1996)
Staudinger reaction of α-azidophenylacetonitrile with triphenylphosphine in 1:2 molar ratio provides the triphenylphosphazine 4 derived from α-diazophenylacetonitrile, whereas 2:1 molar ratio the final product is found to be the aminotriphenylphosphonium salt of phenylmalononitrile 6. However, the Staudinger reaction of α- azidodiphenylacetonitrile with triphenylphosphine affords the corresponding (Z)-phosphazide 17. The crystal and molecular structures of compounds 4,6, and 17 have been determined by X-ray analysis. Compound 17 is the first isolated phosphazide which presents the (Z)-configuration with respect to the central N,N bond of the PN3C moiety (P-N-N-N= 0.0(3)°).
Nouvelle voie de synthese d'isoidindolones et d'isoquinoleines par condensation d'iminophosphoranes avec l'ortho-phthalaldehyde: reactions, mecanismes et etude structurale
Aubert, Thierry,Farnier, Michel,Guilard, Roger
, p. 842 - 851 (2007/10/02)
The condensation of various iminophosphoranes with o-phthalaldehyde led directly to N-substituted isoindoline-1-ones and 3-acylisoquinolines.Three different mechanisms, depending on the nature of the iminophosphorane and reaction conditions, are proposed.All the compounds have been fully characterized, particularly by one- and two-dimensional nuclear magnetic resonance spectroscopy.
