Synthesis, structure and optical limiting properties of organoruthenium-chalcogenide clusters

Treatment of Ru₃(CO)₁₂ with Ph₃PS affords the compounds [Ru₃(μ₃-S)₂(CO)_9 − n(PPh₃)_n] (n = 1 (1a), 2 (2a)) and [Ru₃(μ₃-S)(μ₃-CO)(CO)₇(PPh₃)₂] (3a) as the major products. Single crystal X-ray diffraction studies of [Ru₃(μ₃-S)₂(CO)₈(PPh₃)] and [Ru₃(μ₃-S)(μ₃-CO)(CO)₇(PPh₃)₂] show these two classes of compounds to contain square pyramidal Ru₃S₂ and trigonal pyramidal Ru₃S metal cores, respectively, with the latter being isostructural to the analogous selenide cluster compound. The clusters [Ru₃(μ₃-E)₂(CO)_9 − n(PPh₃)_n] (E = S, n = 1; E = Se, n = 2) readily undergo ligand displacement reactions with PPh₃ to afford the compounds [Ru₃(μ₃-E)₂(CO)₆(PPh₃)₃] (E = S, 5a; E = Se 5b). The mixed chalcogenide cluster, [Ru₃(μ₃-S)(μ₃-Se)(CO)₇(PPh₃)₂] (6), was prepared from the reaction of [Ru₃(μ₃-S)(μ₃-CO)(CO)₇(PPh₃)₂] and SePPh₃. The optical limiting properties of the complexes 1a,b, 2a,b, 5a,b have been measured by the Z-scan technique employing 40 ns pulses at 523 nm; power limiting was observed for all clusters under our experimental conditions.