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A rapid and efficient P(III)-to-P(V) intramolecular rearrangement of N-[(phosphino)oxy] amines is reported. This intermediate is generated in situ from the reaction of hydroxylamines with chlorophosphites or chlorophosphoramidites and with rearrangement via the cleavage of the weaker N─O bond to generate a more stable P═O bond. The reaction proceeds spontaneously in an excellent yield when the hydroxylamine is electron poor. Various substituents on the phosphorus are well-tolerated.
We thank the National Sciences and Engineering Research Council of Canada for financial support. Feng Gao is grateful to the Canadian Institute of Health and Research for a scholarship. Supplementary information is available, including detailed descriptions of experimental procedures, product characterization, HPLC traces, and NMR spectra for compounds 4a, 5a–5f, and 6a.
Notes
a all reactions were carried at room temperature for 2 h in dichloromethane and using the base diisopropylethylamine. No chromatography was required to purify except for 5f.
b Isolated yield.
a All reactions were carried at room temperature for 2 h in dichloromethane and using the base diisopropylethylamine except for 4a, where triethylamine was used.
b Isolated yield.
c by 31P NMR (data not shown).
