posted on 2005-10-14, 00:00authored byRobert A. Moss, Xiaolin Fu, Ronald R. Sauers, Peter Wipf
Fragmentation of (S)-endo-5-norbornenyl-2-oxychlorocarbene [(S)-8] in cyclohexane-d12 gives ∼20%
(S)-endo-2-chloro-5-norbornene [(S)-7] with ∼50% ee, 65−70% (R)-exo-2-chloro-5-norbornene [(R)-4] with >95% ee, and ∼12% (R)-3-nortricyclyl chloride [(R)-5] with ∼22% ee. (Analogous
stereochemical results were also obtained starting with the enantiomeric carbene (R)-8.) The (S)-8
to (S)-7 and (S)-8 to (R)-4 conversions are ascribed mainly to retention and inversion SNi transition
states, respectively. These have been located by computational methods and are nearly isoenergetic.
In more polar solvents (CDCl3 and CD3CN), the fragmentation of (S)-8 increasingly occurs via
competitive ion pair pathways in which steroselectivity is diminished, and escape to the
norbornenyl−nortricyclyl cation directs the products away from endo-2-chloro-5-norbornene toward
exo-chloride 4 and nortricyclyl chloride 5.