Journal article
Reverse cope elimination of hydroxylamines and alkenes or alkynes: Theoretical investigation of tether length and substituent effects
EH Krenske, EC Davison, IT Forbes, JA Warner, AL Smith, AB Holmes, KN Houk
Journal of the American Chemical Society | Published : 2012
DOI: 10.1021/ja211568k
Abstract
Quantum mechanical calculations have been used to study the intramolecular additions of hydroxylamines to alkenes and alkynes ("reverse Cope eliminations"). In intermolecular reverse Cope eliminations, alkynes are more reactive than alkenes. However, competition experiments have shown that tethering the hydroxylamine to the alkene or alkyne can reverse the reactivity order from that normally observed. The exact outcome depends on the length of the tether. In agreement with experiment, a range of density functional theory methods and CBS-QB3 calculations predict that the activation energies for intramolecular reverse Cope eliminations follow the order 6-exo-dig < 5-exo-trig < 5-exo-dig ≈ 7-ex..
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Awarded by National Institute of General Medical Sciences
Funding Acknowledgements
We thank the US NSF (CHE-0548209 to K.N.H.), the Australian Research Council (DP0985623 to E.H.K.), ARC Centre of Excellence for Free Radical Chemistry and Biotechnology (funding to E.H.K.), the Engineering and Physical Sciences Research Council UK, GlaxoSmithKline, the University of Melbourne, and the Commonwealth Scientific and Industrial Research Organisation (Australia) for generous financial support. Computer resources were provided by the NCSA, UCLA ATS (USA), and NCI National Facility (Canberra, Australia, supported by the Australian Commonwealth Government).