97222-08-7Relevant academic research and scientific papers
Photochemical Reactions of Trialkylammonio-N-diphenylphosphinoylimides: Rearrangement to N-Phosphinoyl Aminals and the Formation of Diphenylphosphinic Amide
Freeman, Sally,Harger, Martin J. P.
, p. 571 - 578 (2007/10/02)
The photolysis of the aminimide Ph2P(O)N--N+Me3 (1) in methanol gives the amide Ph2P(O)NH2 in high yield, but most of this is not formed from (1) directly via the nitrene; rather, it results from (solvolytic) decomposition of the phosphinoyl aminal Ph2P(O)NHCH2NMe2 (5) formed from (1) by a photochemical rearrangement.With Ph2P(O)N--N+Et3 the corresponding rearrangement product Ph2P(O)NHCHMeNEt2 (an ethylidene aminal) is not observed, but this is probably just a consequence of very rapid decomposition.Although substrates bearing both Me and Et groups on the ammonium N atom appear to form only the rearrangement product (a methylene aminal) that results form involvement of a Me group, the yield is reduced substantially relative to the yield of (5) from (1).The size of the reduction is consistent with an Et group participating in the rearrangement about twice as readily as a Me group, but the product (an ethylidene aminal) that results suffering (much) much more rapid decomposition to Ph2P(O)NH2.
The Origin of the Amide formed in the Photochemical Reactions of Aminimides: Rearrangement of Trimethylammonio-N-diphenylphosphinoylimide to N-(Dimethylaminomethyl)diphenylphosphinic Amide
Freeman, Sally,Harger, Martin J. P.
, p. 241 - 242 (2007/10/02)
The principal photochemical reaction of Ph2P(O)N(1-)-N(1+)Me3 in dimethyl sulphoxide or methanol is rearrangement to Ph2P(O)NHCH2NMe2 which subsequently deceomposes to give the amide Ph2P(O)NH2; rearrangement also occurs with PhCON(1-)-N(1+)Me3 but is apparently not the major reaction pathway.
