Syntheses, structures and chemistry of the high-nuclearity ruthenium hydrido cluster anions [Ru10H2(CO)25]2– and [Ru11H(CO)27]3–
Abstract
Thermolysis of [Ru3(CO)12] in ethanol yielded the decanuclear hydridoruthenium cluster dianion [Ru10H2(CO)25]2–1. When a mixture of methanol and water is employed as thermolysis solvent the undecaruthenium hydridoruthenium trianion [Ru11H(CO)27]3–2 is also formed. Crystal structure analysis of 1 as its [N(PPh3)2]+ salt and 2 as its [NEt3(CH2Ph)]+ salt showed their metal core structures to be related, 2 being a square-faced capped congener of 1. Cluster 2 was alternatively formed in near-quantitative yields when [Ru3(CO)12] was thermolysed in acetonitrile containing traces of water for several days. It was not possible to locate the hydride ligands in the structures by potential-energy-minimisation calculations, but strong signals were seen in the 1H NMR spectra at δ–14.2 (s, 2 H) for 1 and at –5.47 (s, 1 H) for 2. On treatment of 1 and 2 with [Au(PPh3)Cl] in the presence of TlPF6, 1 showed no reactivity, but 2 reacted smoothly adding one [Au(PPh3)]+ moiety and giving a product characterised as [Ru11H(CO)27{Au(PPh3)}]2–3. The structural relationships between the known high-nuclearity ruthenium hydrido carbonyl clusters are discussed, and their implications for a possible cluster build-up sequence considered.