Litcius/Paper detail

Near-room temperature ferromagnetic insulating state in highly distorted LaCoO2.5 with CoO5 square pyramids

Qinghua Zhang, Ang Gao, Fanqi Meng, Qiao Jin, Shan Lin, Xuefeng Wang, Dongdong Xiao, Can Wang, Kui-juan Jin, Dong Su, Er-Jia Guo, Lin Gu

2021Nature Communications43 citationsDOIOpen Access PDF

Abstract

Abstract Dedicated control of oxygen vacancies is an important route to functionalizing complex oxide films. It is well-known that tensile strain significantly lowers the oxygen vacancy formation energy, whereas compressive strain plays a minor role. Thus, atomic reconstruction by extracting oxygen from a compressive-strained film is challenging. Here we report an unexpected LaCoO 2.5 phase with a zigzag-like oxygen vacancy ordering through annealing a compressive-strained LaCoO 3 in vacuum. The synergetic tilt and distortion of CoO 5 square pyramids with large La and Co shifts are quantified using scanning transmission electron microscopy. The large in-plane expansion of CoO 5 square pyramids weaken the crystal field splitting and facilitated the ordered high-spin state of Co 2+ , which produces an insulating ferromagnetic state with a Curie temperature of ~284 K and a saturation magnetization of ~0.25 μ B /Co. These results demonstrate that extracting targeted oxygen from a compressive-strained oxide provides an opportunity for creating unexpected crystal structures and novel functionalities.

Topics & Concepts

Materials scienceFerromagnetismCurie temperatureAnnealing (glass)Condensed matter physicsOxygenVacancy defectCrystal structureOxideCrystal (programming language)MagnetizationSquare (algebra)Phase (matter)Phase transitionSaturation (graph theory)CrystallographySingle crystalUltimate tensile strengthCrystallographic defectCurieNuclear magnetic resonanceDistortion (music)Transmission electron microscopyMagnetic fieldMagnetic and transport properties of perovskites and related materialsElectronic and Structural Properties of OxidesHeusler alloys: electronic and magnetic properties