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Novel transition-metal oxides:Control of structural, magnetic, and transport properties

Update time:2021-02-05
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The State Key Lab of 

High Performance Ceramics and Superfine Microstructure Shanghai Institute of Ceramics, Chinese Academy of Sciences

中 国 科 学 院 上 海 硅 酸 盐 研 究 所 高 性 能 陶 瓷 和 超 微 结 构 国 家 重 点 实验 室 

    

 

Novel transition-metal oxides: 

Control of structural, magnetic, and transport properties

  

Yuichi Shimakawa 

Kyoto University, Japan 

    

时间:2019 10 14日(星期一)下午2:45    

地点:嘉定园区F82会议室  

    

欢迎广大科研人员和研究生参与讨论! 

 

  联系人:王家成(69163661 

 


  报告摘要: 

  Transition-metal oxides show lots of intriguing and useful properties. The wide variety of their crystal structures gives rise to various electronic structures, which lead to interesting physical and chemical properties. We are focusing on the fundamental physics and chemistry of such transition-metal oxides and seeking new materials with new functional properties. In searches for new oxide materials, we use high-pressure synthesis and epitaxial thin film growth in addition to the ordinary solid state reaction processes. These techniques open up possibility for getting new materials including meta-stable phases. 

  In the presentation, we first focus on some ordered perovskite-structure oxides, in which transition-metal ions are included at the A and B sites in perovskite ABO3 in ordered manners like A2BBO6, AA3B4O12 and AA3B2B2O12. In these compounds, A-A, A-B, and B-B interactions compete and/or cooperate with each other and play important roles in giving rise to drastic changes in physical and chemical properties. Examples include the negative thermal expansion LaCu3Fe4O12, and the half-metallic CaCu3Fe2Re2O12, both of which are prepared by high-pressure synthesis technique.  

  The second topic focuses on the arrangement of oxygen ions at heterointerfaces of transition-metal oxide thin films. We have found significant modification of oxygen coordination at the interface between SrFeO2.5 and DyScO3. When the brown millerite-structure SrFeO2.5 film grows epitaxially on a perovskite DyScO3 substrate, the alternately ordered arrangement of oxygen is significantly disturbed and reconstructed in the heterointerface region to accommodate structural mismatch. The oxygen incorporation/release behaviors and possible oxide-ion conduction in the thin films will also be discussed. 

    

  报告人简介: 

  Prof. Yuichi Shimakawa is the Vice-Director of Institute for Chemical Research, Kyoto University, who focus on Solid state chemistry and Materials science. His scientific interests concern transition-metal oxides which show lots of interesting and useful properties. They include ferroelectrics, ferromagnets, conductors, batteries, and so on. The wide variety of their crystal structures gives rise to various electronic structures, which lead to interesting and useful physical and chemical properties. He is focusing on the fundamental physics and chemistry of these "functional oxides" and seeking new materials with new functions. 

 
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