Triggering Electron Transfer In Co(I) Dimers: Computational Evidences For A Reversible Disproportionation Mechanism
CHEMPHYSCHEM(2021)
摘要
An inner-sphere disproportionation mechanism of the Co(I) precursor CoCl(PPh3)(3) is described through a Density Functional Theory study. The essential role of oleylamine in this process is unravelled. A detailed analysis of the electronic structure of Cobalt dimers of the general formula Co2Cl2Ln (L=NH3 and PH3) demonstrates that electron transfer is triggered by asymetric coordination of amine and phosphine to stabilize a mixed-valence Co(II)-Co(0) dimer. This is consistent with the HSAB statement that both amine and phosphine ligands are required to stabilize the reaction products, respectively Co(II) and Co(0) centers. We propose a quasi-athermic multi-step disproportionation mechanism with low activation barriers where the electron transfer goes through simple ligand exchanges between Co.
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关键词
Disproportionation, Electron Transfer, DFT, Cobalt Dimers, Inner-sphere
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