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Cooperative Bond Activation by a Bimetallic Main-Group Complex
December 24 2020
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Abstract
Inspired by natural metalloenzymes that efficiently catalyze a variety of transformations,
chemists have developed large numbers of dinuclear transition-metal complexes with
extraordinary properties and reactivity patterns. For main-group element compounds,
however, metal-metal cooperativity is much less explored. Here we present the synthesis
and characterization of a room-temperature-stable compound with two separated two-coordinated
gallium(I) centers possessing both a lone pair of electrons and a vacant orbital,
reminiscent of singlet carbenes. This species displays enhanced reactivity compared
to its mononuclear counterpart due to bimetallic cooperativity that allows for the
facile activation of strong C-F bonds across the gallium-gallium bond. Two mechanistic
scenarios of the cooperative bond activation have been identified by DFT and DLPNO-CCSD(T)
calculations.
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