82123-62-4Relevant articles and documents
PHOSPHORUS HETEROCYCLE SYNTHESIS BY RPX2*AlX3 ADDITION TO DIENES VI RPX2*AlX3 PHOSPHORYLATIONS IN THE PRESENCE AND ABSENCE OF WATER
Rudi, A.,Kashman, Y.
, p. 4269 - 4275 (2007/10/02)
The electrophilic addition of RPX2*AlX3 (1) (R=Ph or Me; X=Cl or Br) to dienes was found to be an efficient and useful reaction for the synthesis of a variety of new phospha-heterocycles such as substituted phospholanes, dihalophosphorinanes, phosphorinenes, 3-phosphabicyclohexanes, 2-phosphabicycloheptanes, 2-phosphabicyclooctanes and substituted phosphetanes.An ionic multistep mechanism, governed by stability of the intermediate carbonium ions, is suggested.The phosphorylation reaction was found to be most sensitive to water and in its presence (even 0.1 eq.) it takes a different course.The products, results from hydrogen and RP(O)X addition to the double bond.The phosphorylation is initiated by an unusual protonation process which employs the specific catalytic properties of the AlCl3*H2O complex (HX+RPX2 in the presence or absence of AlCl3 do not give any defined phosphorylation products but polymers).Some of the examined dienes give with water-doped RPX2*AlX3 phosphorylations and/or HX additions, involving in several cases participation of both double bonds to give intramolecular cyclisation products.These products may explain the substances obtained following phosphorylation of simple n-alkenes.Compound 16, one of the new addition compounds, was found to cyclise to the 2-oxaphospholane system (19).