Syntheses, Structures, and Electrochemistry of the Defective ccp [Pt33(CO)38]2– and the bcc [Pt40(CO)40]6– Molecular Nanoclusters

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• 作者：Enrico Cattabriga ; Iacopo Ciabatti ; Cristina Femoni ; Tiziana Funaioli ; Maria Carmela Iapalucci ; Stefano Zacchini
• 刊名：Inorganic Chemistry
• 出版年：2016
• 出版时间：June 20, 2016
• 年：2016
• 卷：55
• 期：12
• 页码：6068-6079
• 全文大小：609K
• 年卷期：0
• ISSN：1520-510X

文摘

The molecular [Pt₃₃(CO)₃₈]^2– nanocluster was obtained from the thermal decomposition of Na₂[Pt₁₅(CO)₃₀] in methanol. The reaction of [Pt₁₉(CO)₂₂]^4– with acids (1–2 equiv) affords the unstable [Pt₁₉(CO)₂₂]^3– trianion, which evolves with time leading eventually to the [Pt₄₀(CO)₄₀]^6– hexa-anion. The total structures of both nanoclusters were determined via single-crystal X-ray diffraction. [Pt₃₃(CO)₃₈]^2– displays a defective ccp Pt₃₃ core and shows that localized deformations occur in correspondence of atomic defects to “repair” them. In contrast, [Pt₄₀(CO)₄₀]^6– shows a bcc Pt₄₀ core and represents the largest Pt cluster with a body-centered structure. The rich electrochemistry of the two high-nuclearity platinum carbonyl clusters was studied by cyclic voltammetry and electrochemical in situ Fourier transform infrared spectroscopy. The redox changes of [Pt₃₃(CO)₃₈]^2– show features of chemical reversibility and electrochemical quasi-reversibility, and the vibrational spectra in the CO stretching region of the nine redox forms of the cluster [Pt₃₃(CO)₃₈]ⁿ (n = 0 to −4, −6 to −9) are reported. Almost all the redox processes exhibited by [Pt₄₀(CO)₄₀]^6– are chemically and electrochemically reversible, and the eight oxidation states of [Pt₄₀(CO)₄₀] from −4 to −11 were spectroscopically characterized. The effect of the more regular bcc Pt-carbonyl cluster structure of [Pt₄₀(CO)₄₀]^6– with respect to that of the defective ccp Pt₃₃ core on the redox behavior is discussed.