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Halogen-atom and group transfer reactivity enabled by hydrogen tunneling.

Timothée ConstantinBartosz GórskiMichael J TilbySaloua ChelliFabio JuliáJosep LlaveriaKevin J GillenHendrik ZipseSami LakhdarDaniele Leonori
Published in: Science (New York, N.Y.) (2022)
The generation of carbon radicals by halogen-atom and group transfer reactions is generally achieved using tin and silicon reagents that maximize the interplay of enthalpic (thermodynamic) and polar (kinetic) effects. In this work, we demonstrate a distinct reactivity mode enabled by quantum mechanical tunneling that uses the cyclohexadiene derivative γ-terpinene as the abstractor under mild photochemical conditions. This protocol activates alkyl and aryl halides as well as several alcohol and thiol derivatives. Experimental and computational studies unveiled a noncanonical pathway whereby a cyclohexadienyl radical undergoes concerted aromatization and halogen-atom or group abstraction through the reactivity of an effective H atom. This activation mechanism is seemingly thermodynamically and kinetically unfavorable but is rendered feasible through quantum tunneling.
Keyphrases
  • molecular dynamics
  • electron transfer
  • randomized controlled trial
  • visible light
  • aqueous solution