Unusual pathways for the reaction between [MCl2(Me2SO)(4)] (M = Os, Ru) and hydrazine dihydrochloride: deoxygenation of sulfoxides vs. coordination of hydrazinium

Reaction of trans-[OsCl2(Me2SO)(4)] 1 with excess N2H4. 2HCl leads to the o smium(III) compound mer-[OsCl3(NH3)(2)(Me2S)] 2 in the course of concerted reactions, i.e. oxidation of the metal, deoxygenation of the sulfoxide, dis proportionation of hydrazine and substitution by NH3. In contrast, interact ion of cis-[RuCl2(Me2SO)(4)] cis-3 with hydrazine dihydrochloride brings ab out easy substitution (without redox conversion) leading to mer-[RuCl3(N2H5 )(Me2SO)(2)] 4 which is a rare example of a hydrazinium complex. X-Ray sing le-crystal diffraction analyses were performed on 1, 2 and 4. In 4, one Ru- S bond is unusually short due to the enhanced pi bonding contribution as a result of an intramolecular H-bond between the Me2SO and the cis N2H5+ grou p. The complexes show anodic oxidations and 4, that in aqueous medium under goes spontaneous dehydrochlorination, exhibits by controlled potential elec trolysis a multi-electron oxidation process with anodically-induced H+ loss , oxidation of the hydrazine ligand to N-2 and N-oxides, and of Me2SO to SO 2. The anodic waves of Me2SO or H2O solutions of cis-3 were assigned to tra ns-[RuCl2(Me2SO-S)(4)] trans-3 and [RuCl(H2O)(2)(Me2SO-S)(3)](+), respectiv ely. The oxidation potential values were interpreted on the basis of redox potential-structure relationships and the Lever electrochemical parameter E -L was tentatively estimated for both S- and O-coordinated Me2SO and for th e hydrazinium ligand, showing that Me2SO-S in our complexes behaves as a si gnificant pi-electron acceptor and N2H5+ as a rather weak net electron dono r, and applied to predict the oxidation potential of some Ru and Os complex es.