Synthesis and redox properties of trinuclear ruthenium–acetylide complexes with tri(ethynylphenyl)amine bridge

Abstract

Novel trinuclear ruthenium complexes have been prepared by using tri(4-ethynylphenyl)amine as a bridging ligand. Cyclic voltammetry of the trinuclear ruthenium complexes revealed stepwise quasi-reversible redox behavior of three ruthenium–acetylide species and the central triphenylamine unit, whereas the mononuclear analog showed two sequential quasi-reversible redox waves. The spectroelectrochemical UV-VIS spectral studies suggested that the 1e⁻ oxidized triruthenium species was stable and showed a characteristic absorption at λ_max = 505 nm. Chemical oxidation of the triruthenium complex with ferrocenium hexafluorophosphate led to the isolation of the 1e⁻ oxidized complex, the near-IR spectrum of which revealed an intervalence charge transfer band due to the electronic coupling among three ruthenium species. The 1e⁻ oxidized triruthenium complexes can be classified as class II mixed-valence compounds.