Control of the Iridium Oxidation State in the Hollandite Iridate Solid Solution K1鈥?i>xIr4O8

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• 作者：Artem Talanov ; W. Adam Phelan ; Zachary A. Kelly ; Maxime A. Siegler ; Tyrel M. McQueen
• 刊名：Inorganic Chemistry
• 出版年：2014
• 出版时间：May 5, 2014
• 年：2014
• 卷：53
• 期：9
• 页码：4500-4507
• 全文大小：387K
• 年卷期：v.53,no.9(May 5, 2014)
• ISSN：1520-510X

文摘

The synthesis and physical properties of the K_1鈥?i>xIr₄O₈ (0 鈮?x 鈮?0.7) solid solution are reported. The structure of KIr₄O₈, solved with single-crystal X-ray diffraction at T = 110 K, is found to be tetragonal, space group I4/m, with a = 10.0492(3) 脜 and c = 3.14959(13) 脜. A highly anisotropic displacement parameter is found for the potassium cation. Density functional theory calculations suggest that this anisotropy is due to a competition between atomic size and bond valence. KIr₄O₈ has a significant electronic contribution to the specific heat, 纬 = 13.9 mJ mol-Ir^鈥? K^鈥?, indicating an effective carrier mass of m*/m_e 鈮?10. Further, there is a magnetic-field-dependent upturn in the specific heat at T < 3 K, suggestive of a magnetically sensitive phase transition below T < 1.8 K. Resistivity and magnetization measurements show that both end-members of the solid solution, KIr₄O₈ and K_1鈥?i>xIr₄O₈ (x 鈮?0.7), are metallic, with no significant trends in the temperature-independent contributions to the magnetization. These results are interpreted and discussed in the context of the importance of the variability of the oxidation state of iridium. The differences in physical properties between members of the K_1鈥?i>xIr₄O₈ (0 鈮?x 鈮?0.7) series are small and appear to be insensitive to the iridium oxidation state.