C–H Functionalization
Reactivity of a Nickel–Imide
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Abstract
We report bifunctional reactivity of the β-diketiminato
Ni(III)–imide
[Me<sub>3</sub>NN]NiNAd (<b>1</b>), which undergoes
H-atom abstraction (HAA) reactions with benzylic substrates R–H
(indane, ethylbenzene, toluene). Nickel–imide <b>1</b> competes with the nickel–amide HAA product [Me<sub>3</sub>NN]Ni–NHAd (<b>2</b>) for the resulting hydrocarbyl
radical R<sup>•</sup> to give the nickel–amide [Me<sub>3</sub>NN]Ni–N(CHMePh)Ad (<b>3</b>) (R–H = ethylbenzene)
or aminoalkyl tautomer [Me<sub>3</sub>NN]Ni(η<sup>2</sup>-CH(Ph)NHAd)
(<b>4</b>) (R–H = toluene). A significant amount of functionalized
amine R–NHAd is observed in the reaction of <b>1</b> with
indane along with the dinickel imide {[Me<sub>3</sub>NN]Ni}<sub>2</sub>(μ-NAd) (<b>5</b>). Kinetic and DFT analyses point to
rate-limiting HAA from R–H by <b>1</b> to give R<sup>•</sup>, which may add to either imide <b>1</b> or amide <b>2</b>, each featuring significant N-based radical character. Thus,
these studies illustrate a fundamental competition possible in C–H
amination systems that proceed via a HAA/radical rebound mechanism
