Metal–Insulator Transition in Doped Barium Plumbates

Andreza Eufrasio, I. Pegg, Amrit Kafle, W. Wong-Ng, Qingzhen Huang, Biprodas Dutta
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Abstract

Solid solutions in the Ba(Pb1−xSrx)O3−z system were prepared by aliovalent substitution of Pb4+ by Sr2+ ions to investigate the effect of cation stoichiometry on thermal and electrical properties as x was varied between 0 and 0.4, in the temperature range 300–523 K. The starting compound, barium plumbate (BaPbO3), has a perovskite structure and is known to exhibit metallic conductivity due to an overlap of the O2p nonbonding and the Pb–O spσ antibonding band, which is partially filled by the available electrons. The large difference in the ionic radii between the Pb4+ and Sr2+ ions introduces significant strain into the (Pb/Sr)O6 octahedra of the perovskite structure. Additionally, charged defects are created on account of the different oxidation states of the Pb4+ and Sr2+ ions. Evidence of a metal to insulator transition (MIT) of the Mott–Hubbard type has been observed at a critical concentration of Sr2+ ions.
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掺杂铅酸钡的金属-绝缘体跃迁
用Sr2+离子取代Pb4+,制备了Ba(Pb1−xSrx)O3−z体系的固溶体,研究了在300-523 K温度范围内,当x在0 ~ 0.4范围内变化时,阳离子化学计量对热学和电学性能的影响。起始化合物铅酸钡(BaPbO3)具有钙钛矿结构,由于O2p非键带和Pb-O spσ反键带重叠,其中部分被可用电子填充,因此已知其具有金属导电性。Pb4+和Sr2+离子半径的巨大差异使钙钛矿结构的(Pb/Sr)O6八面体产生了明显的应变。此外,由于Pb4+和Sr2+离子的氧化态不同,产生了带电缺陷。在Sr2+离子的临界浓度下,已经观察到莫特-哈伯德型金属到绝缘体转变(MIT)的证据。
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