Oxaphosphetane Explained

An oxaphosphetane is a molecule containing a four-membered ring with one phosphorus, one oxygen and two carbon atoms. In a 1,2-oxaphosphetane phosphorus is bonded directly to oxygen, whereas a 1,3-oxaphosphetane has the phosphorus and oxygen atoms at opposite corners.

1,2-Oxaphosphetanes are rarely isolated but are important intermediates in the Wittig reaction and related reactions such as the Seyferth–Gilbert homologation and the Horner–Wadsworth–Emmons reaction.^[1] Edwin Vedejs's NMR studies first revealed the importance of oxaphosphetanes in the mechanism of the Wittig reaction in the 1970s.^{[2] [3]}

In 2005 the first isolation of 1,2-Oxaphosphetanes (typical Wittig intermediates) was reported.^[4] One of the compounds was characterized by X-ray crystallography and NMR. Although relatively stable, thermal decomposition of these oxaphosphetanes gave a phosphonium salt, which slowly dissociated to the Wittig reaction starting materials, the carbonyl and olefin compounds.

Notes and References

1. Peter A. . Byrne . Declan G. . Gilheany . The modern interpretation of the Wittig reaction mechanism . . 2013 . 42 . 16 . 6670–6696 . 10.1039/C3CS60105F . 23673458 . 10197/4939 . free.
2. Studies in Heteroelement-Based Synthesis . Vedejs E . . 69 . 16 . 5159–5167 . 30 July 2004 . 10.1021/jo049360l. 15287757.
3. Web site: Memorial Resolution of the Faculty of the University of Wisconsin-Madison. University of Wisconsin-Madison. 9 May 2020. https://web.archive.org/web/20200509230713/https://kb.wisconsin.edu/images/group222/shared/2018-02-05FacultySenate/2719VedejsMR.pdf. 9 May 2020.
4. M. Hamaguchi . Y. Iyamaa . E. Mochizukia . T. Oshima . First isolation and characterization of 1,2-oxaphosphetanes with three phenyl groups at the phosphorus atom in typical Wittig reaction using cyclopropylidenetriphenylphosphorane . . 2005 . 46 . 51 . 8949–8952 . 10.1016/j.tetlet.2005.10.086.