Umwandlungen zwischen Vinyliden- und Alkylidin-verbrückten Dreikernclustern / Interconversions between Vinylidene and Alkylidyne Bridged Trinuclear Clusters

Abstract

Based on the observation that the alkylidyne bridged cluster HFeCo₂(CO)₉(μ₃-C—CH₃) spontaneously loses H₂ to form the vinylidene bridged cluster FeCo₂(CO)₉(μ₃-C=CH₂), the interconversions between these types of ligands on mixed trinuclear clusters were investigated. It was found that in all cases clusters of the type HM₃μ₃-C—CH₂R) could be transformed into clusters of the type M₃(μ₃-C=CHR); for M₃ = FeCo₂, FeCoMo, RuCoMo, RuCoW, OsCoMo, OsCoW; for R = H and in one case CH₃; for dehydrogenation by thermolysis and in one case H⁺/H^- elimination. Conversely, hydrogenation of the vinylidene bridged clusters to the alkylidyne bridged clusters was only possible for the FeCoMo, RuCoMo, and RuCoW systems, for the unsubstituted C=CH₂ ligand, and for elemental hydrogen as the reagent. Together with previous observations this leads to the conclusion that among the interconvertible alkyne, vinylidene, and alkylidyne ligands the vinylidene unit represents the most stable entity on trinuclear clusters.