褐铁矿
化学
钴
外延
氧化物
结晶学
无机化学
钙钛矿(结构)
有机化学
图层(电子)
作者
Hao‐Bo Li,Shunsuke Kobayashi,Weitao Yan,Binjie Chen,Tong Zhu,Morito Namba,Yoshinori Kotani,Hiroshi Takatsu,Takahito Terashima,Kei Nakayama,Akihide Kuwabara,Azusa N. Hattori,Weihua Wang,Hiromichi Ohta,Hidekazu Tanaka,Hiroshi Kageyama
标识
DOI:10.1021/acs.inorgchem.4c05507
摘要
Layered perovskite oxides with the Ruddlesden-Popper (RP) structure exhibit diverse functionalities, yet the synthesis of cobalt-based RP oxides is hindered by competing phase formation. In this study, we successfully synthesized Sr4Co3O9, a triple-layered cobalt oxide with a layered brownmillerite structure, as an epitaxial thin film on a LaAlO3 substrate. Soft X-ray absorption spectra confirmed oxygen nonstoichiometry and a mixed-valence state of Co3.3+ while scanning transmission electron microscopy revealed the presence of a tetrahedral layer in the central perovskite block. The structural comparison indicates that unlike conventional brownmillerite A2B2O5, the triple-layered A4B3O9 phase features axially elongated octahedra with significant B-site off-centering, driven by Coulomb repulsion from the tetrahedral B cations. Density functional calculations suggest a charge-ordered antiferromagnetic state. The thermal power of Sr4Co3O9 is lower compared to other layered cobalt oxides, such as NaxCoO2. Our results demonstrate the impact of structural modulation in layered brownmillerite oxides, offering a perspective for designing functional materials.
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