A New Ru Complex Capable of Catalytically Oxidizing Water to Molecular Dioxygen

Abstract

We have prepared three new dinuclear ruthenium complexes having the formulas [Ru₂^II(bpp)(trpy)₂(μ-L)]²⁺ (L = Cl, 1; L = AcO, 2) and [Ru₂^II(bpp)(trpy)₂(H₂O)₂]³⁺ (3). The three complexes have been characterized through the usual spectroscopic and electrochemical techniques and, in the cases of 1 and 2, the X-ray crystal structures have been solved. In aqueous acidic solution, the acetato bridge of 2 is replaced by aqua ligands, generating the bis(aqua) complex 3 which, upon oxidation to its Ru^IVRu^IV state, has been shown to catalytically oxidize water to molecular oxygen. The measured pseudo-first-order rate constant for the O₂-evolving process is 1.4 × 10^-2 s^-1, more than 3 times larger than the higher one previously reported for Ru−O−Ru type catalysts. This new water-splitting catalyst also has improved stability with regard to any previously described, achieving a total of 18.6 metal cycles.