Achieving large and nonvolatile tunable magnetoresistance in organic spin valves using electronic phase separated manganites

Wenting Yang; Qian Shi; Tian Miao; Qiang Li; Peng Cai; Hao Liu; Hanxuan Lin; Yu Bai; Yinyan Zhu; Yang Yu; Lina Deng; Wenbin Wang; Lifeng Yin; Dali Sun; X.-G. Zhang; Jian Shen

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Achieving large and nonvolatile tunable magnetoresistance in organic spin valves using electronic phase separated manganites

机译：使用电子相分离的锰在有机旋转阀中实现大型和非易失性可调磁阻

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Tailoring molecular spinterface between novel magnetic materials and organic semiconductors offers promise to achieve high spin injection efficiency. Yet it has been challenging to achieve simultaneously a high and nonvolatile control of magnetoresistance effect in organic spintronic devices. To date, the largest magnetoresistance (~300% at T?=?10?K) has been reached in tris-(8-hydroxyquinoline) aluminum (Alqsub3/sub)-based organic spin valves (OSVs) using Lasub0.67/subSrsub0.33/subMnOsub3/sub as a magnetic electrode. Here we demonstrate that one type of perovskite manganites, i.e., a (Lasub2/3/subPrsub1/3/sub)sub5/8/subCasub3/8/subMnOsub3/sub thin film with pronounced electronic phase separation (EPS), can be used in Alqsub3/sub-based OSVs to achieve a large magnetoresistance (MR) up to 440% at T?=?10?K and a typical electrical Hanle effect as the Hallmark of the spin injection. The contactless magnetic field-controlled EPS enables us to achieve a nonvolatile tunable MR response persisting up to 120?K. Our study suggests a new route to design high performance multifunctional OSV devices using electronic phase separated manganites.

机译：小说磁性材料和有机半导体之间剪裁分子截面提供了达到高旋转注射效率的承诺。然而，在有机闪光装置中同时实现了对磁阻效应的高和非易失性控制。迄今为止，在Tris-（8-羟基喹啉）铝（Alq _{3 ）的有机旋转阀（OSV）中，已经达到最大磁阻（在T≥α1ak）中达到α=Δ10≤k）使用La _{0.67 Sr _{0.33 Mno _{3 作为磁极。在这里，我们证明了一种钙钛矿锰，即（La _{2/3 pr _{1/3 ）_{5/8 ca _{3/8 MnO _{3 薄膜用明显的电子相分离（EPS），可用于Alq _{3 基于OSV，以实现大磁阻（ MR）在T？= 10？k和典型的电气Hanle效应，高达440％，作为旋转注射的标志。非接触式磁场控制的EPS使我们能够实现持续到120Ω·k的非易失性可调的MR反应。我们的研究表明，使用电子相分离的锰设计高性能多功能OSV器件的新路线。}}}}}}}}}}

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《Nature Communications》 |2019年第1期|共10页
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Wenting Yang; Qian Shi; Tian Miao; Qiang Li; Peng Cai; Hao Liu; Hanxuan Lin; Yu Bai; Yinyan Zhu; Yang Yu; Lina Deng; Wenbin Wang; Lifeng Yin; Dali Sun; X.-G. Zhang; Jian Shen;
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1. Magnetically induced nonvolatile magnetoresistance and resistance memory effect in phase-separated manganite thin films [J] . Li Qian, Cao Qingqi, Wang Dunhui, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2017,第8期

机译：磁诱导的非挥发性磁阻和抗性记忆效应在相分离的锰铁薄膜中
2. Magnetically induced nonvolatile magnetoresistance and resistance memory effect in phase-separated manganite thin films [J] . Li Qian, Cao Qingqi, Wang Dunhui, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2017,第8期

机译：磁诱导的非挥发性磁阻和抗性记忆效应在相分离的锰铁薄膜中
3. A review on organic spintronic materials and devices: II. Magnetoresistance in organic spin valves and spin organic light emitting diodes [J] . Rugang Geng, Hoang Mai Luong, Timothy Tyler Daugherty, Journal of Science: Advanced Materials and Devices . 2016,第3期

机译：有机自旋电子材料和器件的综述：II。有机自旋阀和自旋有机发光二极管中的磁阻
4. Colossal magnetoresistance in manganites: role of the electronic phase segregation [C] . M. R. Ibarra, J. M. De Teresa Latin American Workshop on Magnetism, Magnetic Materials and their Applications . 1999

机译：锰矿石巨大磁阻：电子相隔离的作用
5. Competition entre les phases ferromagnetique metallique et ordre de charges a l'interface de manganites a magnetoresistance colossale. [D] . Laverdiere, Jonathan. 2011

机译：金属铁磁性相之间的竞争以及具有巨大磁阻的锰矿界面上的电荷顺序。
6. Achieving large and nonvolatile tunable magnetoresistance in organic spin valves using electronic phase separated manganites [O] . Wenting Yang, Qian Shi, Tian Miao, -1

机译：使用电子相分离的锰矿在有机旋转阀中实现大而非易失性的可调磁阻
7. A review on organic spintronic materials and devices: II. Magnetoresistance in organic spin valves and spin organic light emitting diodes [O] . Geng Rugang, Luong Hoang Mai, Daugherty Timothy Tyler, 2016

机译：对有机自旋电子材料和器件的评论：II。有机自旋阀和自旋有机发光二极管中的磁阻

Achieving large and nonvolatile tunable magnetoresistance in organic spin valves using electronic phase separated manganites

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