Synthesis of Heterometallic Trinuclear Polyhydrido Clusters Containing Ruthenium and Osmium and Their Electronic and Structural Deviation from Homometallic Systems

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• 作者：Hajime Kameo ; Takanori Shima ; Yumiko Nakajima ; Hiroharu Suzuki
• 刊名：Organometallics
• 出版年：2009
• 出版时间：April 27, 2009
• 年：2009
• 卷：28
• 期：8
• 页码：2535-2545
• 全文大小：309K
• 年卷期：v.28,no.8(April 27, 2009)
• ISSN：1520-6041

文摘

A trinuclear heterometallic pentahydrido complex, (Cp*Ru)₂(Cp*Os)(μ-H)₅ (3), was synthesized by dehydrogenative coupling between a diruthenium tetrahydride complex, Cp*Ru(μ-H)₄RuCp*, and an osmium pentahydride, Cp*OsH₅; an analogous complex, (Cp*Ru)(Cp*Os)₂(μ-H)₅ (4), was obtained by the reaction of a dimeric ruthenium methoxo complex, Cp*Ru(μ-OMe)₂RuCp*, with a diosmium tetrahydride complex, Cp*Os(μ-H)₄OsCp*, under an atmospheric pressure of dihydrogen. Complexes 3 and 4 were sufficiently basic to be protonated with HBF₄, leading to the formation of corresponding hexahydrido cations, [(Cp*Ru)₂(Cp*Os)(μ-H)₆]⁺ (7) and [(Cp*Ru)(Cp*Os)₂(μ-H)₆]⁺ (8), respectively. An experiment on proton transfer between the two heterometallic systems 7 and 4 showed that the RuOs₂ pentahydride was more basic than the Ru₂Os pentahydride. Optimized structures of the heterometallic polyhydrido complexes 3, 4, 7, and 8 were derived using their C₅H₅ analogues as model compounds. Unlike the Ru₃ system, the complex (CpRu)_n(CpOs)_3−n(μ-H)₅ (3a: n = 2, 4a: n = 1), which has five doubly bridging hydrido ligands, was the most stable. Although X-ray structural studies of these complexes were conducted using a labeled cyclopentadienyl group, C₅EtMe₄, in all cases, their structures were disordered with respect to metal atoms. The most plausible structures of these complexes were obtained by solving simultaneous equations for metal−metal bond lengths. The estimated lengths were fully consistent with structures optimized by density functional theory calculations.