Oxygen transfer reactivity mediated by nickel perfluoroalkyl complexes using molecular oxygen as a terminal oxidant.
Shubham DeolkaRamadoss GovindarajanEugene KhaskinSerhii I VasylevskyiJanet BahriRobert R FayzullinMichael C RoyJulia R KhusnutdinovaPublished in: Chemical science (2023)
Nickel perfluoroethyl and perfluoropropyl complexes supported by naphthyridine-type ligands show drastically different aerobic reactivity from their trifluoromethyl analogs resulting in facile oxygen transfer to perfluoroalkyl groups or oxygenation of external organic substrates (phosphines, sulfides, alkenes and alcohols) using O 2 or air as a terminal oxidant. Such mild aerobic oxygenation occurs through the formation of spectroscopically detected transient high-valent Ni III and structurally characterized mixed-valent Ni II -Ni IV intermediates and radical intermediates, resembling O 2 activation reported for some Pd dialkyl complexes. This reactivity is in contrast with the aerobic oxidation of naphthyridine-based Ni(CF 3 ) 2 complexes resulting in the formation of a stable Ni III product, which is attributed to the effect of greater steric congestion imposed by longer perfluoroalkyl chains.