109151-17-9Relevant academic research and scientific papers
Bromination of Bicyclobutanes: A Possible Case of an Electron-Transfer Mechanism
Hoz, Shmaryahu,Livneh, Mordechai,Cohen, Drora
, p. 5149 - 5156 (1987)
The kinetics and product distribution of the bromination of 3-R-bicyclobutanecarbonitrile (R=H, Me, Cl, and Ph) by Br2 and Br3- were studied in MeOH at 25 deg C.For the first three substrates, the addition of Br-Br and Br-OMe across the central bond of the bicyclobutane moiety was (within experimental error) 100percent syn stereospecific.For the phenylated substrate, where a relatively stable benzylic cation is formed, a mixture of syn and anti addition products was obtained.Reaction rate constants are best correlated by ?+ with ρ+ values of -6.2 and -6.4 for Br2 and Br3-, respectively.In both cases the phenylated substrate deviates positively from the Hammett-type plot.With use of ab initio calculations it was shown that the mechanism that promotes the stereospecific syn addition in the acid-catalyzed additions to the same substrates is not operative in the case of bromination reactions.Analogous to the electrophilic additions to aromatic and olefinic substrates, an electron-transfer mechanism is suggested for these reactions.Ab initio calculations (URHF) show that the bicyclobutane radical cation formed in the first step is more stable in the puckered form by ca. 18 kcal/mol as compared to the planar one.
