posted on 2000-10-28, 00:00authored byWilliam H. Pearson, Daniel A. Hutta, Wen-kui Fang
Azides bearing a suitably disposed alkene, when treated with either mercuric perchlorate or mercuric
trifluoromethanesulfonate, produce bicyclic iminium ions. This new version of the Schmidt reaction
proceeds by capture of the mercuronium ion intermediate by the azide to produce an aminodiazonium ion, which suffers a 1,2-shift to give an iminium ion (e.g., 10 → 16 → 17 → 18). Reduction of
the iminium ion may then be carried out to produce an amine. Compared to earlier work on the
protic acid-promoted intramolecular Schmidt reaction of azido-alkenes, the mercury-promoted
Schmidt reaction has several advantages. First, the acid-promoted Schmidt reaction of azido-alkenes
requires that the intermediate carbocations be tertiary, allylic, benzylic, or propargylic. The mercury-promoted method has no such limitation; thus even 1,2-disubstituted alkenes may be used. Second,
the mercury-promoted method is milder, allowing the presence of acid-sensitive functionality. The
protic version, typically employing trifluoromethanesulfonic acid, is limited in its functional group
tolerance. Third, whereas carbocation rearrangement is often observed prior to cyclization/rearrangement in the acid-promoted Schmidt reaction, the mercury-promoted method avoids this
problem. Fourth, the presence of the mercurio group during the rearrangment may alter the
regioselectivity of the 1,2-migration. Finally, the mercury-bearing iminium ions that are the result
of the Schmidt reaction were found to be sensitive to protodemercuration, precluding their use in
other transformations.