posted on 2016-09-06, 00:00authored byJason
W. Schultz, Kei Fuchigami, Bo Zheng, Nigam P. Rath, Liviu M. Mirica
Nickel-catalyzed
cross-coupling reactions are experiencing a dramatic
resurgence in recent years given their ability to employ a wider range
of electrophiles as well as promote stereospecific or stereoselective
transformations. In contrast to the extensively studied Pd catalysts
that generally employ diamagnetic intermediates, Ni systems can more
easily access various oxidation states including odd-electron configurations.
For example, organometallic NiIII intermediates with aryl
and/or alkyl ligands are commonly proposed as the active intermediates
in cross-coupling reactions. Herein, we report the first isolated
NiIII–dialkyl complex and show that this species
is involved in stoichiometric and catalytic C–C bond formation
reactions. Interestingly, the rate of C–C bond formation from
a NiIII center is enhanced in the presence of an oxidant,
suggesting the involvement of transient NiIV species. Indeed,
such a NiIV species was observed and characterized spectroscopically
for a nickelacycle system. Overall, these studies suggest that both
NiIII and NiIV species could play an important
role in a range of Ni-catalyzed cross-coupling reactions, especially
those involving alkyl substrates.