Heterometallic Chains and Clusters with Gold-Transition Metal Bonds: Synthesis and Interconversion

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• 作者：Sabrina Sculfort ; Richard Welter ; Pierre Braunstein
• 刊名：Inorganic Chemistry
• 出版年：2010
• 出版时间：March 1, 2010
• 年：2010
• 卷：49
• 期：5
• 页码：2372-2382
• 全文大小：1094K
• 年卷期：v.49,no.5(March 1, 2010)
• ISSN：1520-510X

文摘

Anionic, metal−metal bonded heterotrinuclear chain complexes of the type [M{MoCp(CO)₃}₂]⁻ with M = Cu(I), Ag(I), and Au(I) have been prepared by reaction between a d¹⁰ metal precursor complex and the carbonylmetalate [MoCp(CO)₃]⁻. These complexes have been structurally characterized by X-ray diffraction and used as precursors to neutral 2-D hexa- or octanuclear mixed-metal clusters of the general formula [MMoCp(CO)₃]_n (M = Cu, n = 3; M = Ag or Au, n = 4), which are characterized by a central core constituted of interacting d¹⁰ metal ions, surrounded by the molybdenum atoms. When M = Cu, the six metal atoms form a ν₂-triangular core whereas when M = Ag or Au, a ν₂-square structure is observed for the octanuclear metal core. It is shown in the case of M = Cu and Ag that interconversion between the metal chain complexes of stoichiometry M[m]₂ and the clusters {M[m]}_n is possible, and the position of the equilibrium depends solely on the respective stoichiometry of the reagents. The new ν₂-square, octanuclear, trimetallic complexes [CuAg₃{MoCp(CO)₃}₄] (7) and [CuAu₃{MoCp(CO)₃}₄] (8) have also been obtained and characterized in the solid-state by X-ray diffraction, as well as the unexpected double pentanuclear complex [{Na(dme)}{Cu₂[MoCp(CO)₃]₃}]₂ (9).