Aryl Cation and Carbene Intermediates in the Photodehalogenation of Chlorophenols

The photochemistry of 2,6‐dimethyl‐4‐chlorophenol ( 6 ) has been studied in methanol and trifluoroethanol (TFE) through product studies and transient absorption spectroscopy. Chloride loss from triplet 6 gave triplet hydroxyphenyl cation 14 , which equilibrated with triplet oxocyclohexadienylydene 15 within a few tens of nanoseconds; the cation can, however, be selectively trapped by allyltrimethylsilane ( k ad = 10 8 –10 9    m −1  s −1 ) to give a phenonium ion and the allylated phenol. In neat alcohols, 14 and 15 are reduced through different mechanisms, namely by hydrogen transfer through radical cation 17 and via phenoxyl radical 16 , respectively. The mechanistic rationalization has been substantiated by the parallel study of an O ‐ silylated derivative. The work shows that the chemistry of the highly (but selectively) reactive phenyl cation 14 can not only be discriminated from that of the likewise highly reactive carbene 15 , but also exploited for synthetically useful reactions, as in this case with alkenes. Photolysis of electron‐donating substituted halobenzenes may be the method of choice for the mild generation of some classes of phenyl cations.