Tunneling magnetoresistance with sign inversion in junctions based on iron oxide nanocrystal superlattices

Lekshmi I.C.; Buonsanti R.; Nobile C.; Rinaldi R.; Cozzoli P.D.; Maruccio G.

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Tunneling magnetoresistance with sign inversion in junctions based on iron oxide nanocrystal superlattices

机译：基于氧化铁纳米晶超晶格的结中带符号反转的隧穿磁阻

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Magnetic tunnel junctions sandwiching a superlattice thin film of iron oxide nanocrystals (NCs) have been investigated. The transport was found to be controlled by Coulomb blockade and single-electron tunneling, already at room temperature. A good correlation was identified to hold between the tunnel magnetoresistance (TMR), the expected magnetic properties of the NC arrays, the charging energies evaluated from current-voltage curves, and the temperature dependence of the junction resistance. Notably, for the first time, a switching from negative to positive TMR was observed across the Verwey transition, with a strong enhancement of TMR at low temperatures.

机译：研究了夹着超晶格薄膜的氧化铁纳米晶体（NCs）的磁性隧道结。发现已经在室温下通过库仑阻挡和单电子隧穿来控制传输。隧道磁阻（TMR），NC阵列的预期磁性能，从电流-电压曲线评估的充电能量以及结电阻的温度依赖性之间具有良好的相关性。值得注意的是，首次在整个Verwey过渡过程中观察到了从负TMR到正TMR的转变，低温下TMR的增强。

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《ACS nano》 |2011年第3期|共8页
作者
Lekshmi I.C.; Buonsanti R.; Nobile C.; Rinaldi R.; Cozzoli P.D.; Maruccio G.;
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正文语种 eng
中图分类分子物理学、原子物理学;
关键词
Coulomb blockade; iron oxide; magnetoresistance; nanocrystals; spintronics;

机译：库仑阻滞;氧化铁;磁阻;纳米晶体;自旋电子学;

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1. Tunneling magnetoresistance with sign inversion in junctions based on iron oxide nanocrystal superlattices [J] . Lekshmi I.C., Buonsanti R., Nobile C., ACS nano . 2011,第3期

机译：基于氧化铁纳米晶超晶格的结中带符号反转的隧穿磁阻
2. Huge magnetoresistance in graphene-based magnetic tunnel junctions with superlattice barriers [J] . Chen C. H., Chao B. S., Hsueh W. J. Journal of Physics, D. Applied Physics: A Europhysics Journal . 2015,第33期

机译：具有超晶格势垒的石墨烯磁性隧道结中的巨大磁阻
3. Effect of Seed Layer on Room Temperature Tunnel Magnetoresistance of MgO Barriers Formed by Radical Oxidation in lrMn-Based Magnetic Tunnel Junctions [J] . Faiz Dahmani Japanese journal of applied physics . 2012,第4Issue1期

机译：种子层对基于rrMn的磁性隧道结中自由基氧化形成的MgO势垒室温隧道磁阻的影响
4. Correlation between the bias dependence of tunneling anisotropic magnetoresistance and tunneling magnetoresistance in a La_(0.67)Sr_(0.33)MnO_3-based magnetic tunnel junction [C] . L. D. Arm, T. Yamashita, H. Yamasaki, 応用物理学会秋季学術講演会;応用物理学会 . 2018

机译：基于La_（0.67）Sr_（0.33）MnO_3的磁性隧道结中隧道各向异性磁阻的偏置依赖性与隧道磁阻的相关性
5. Atomic-level characterization of iron(001)/magnesium oxide(001)/iron(001) tunneling magnetoresistance structures and spin-polarized scanning tunneling microscopy. [D] . Lee, Jookyung. 2010

机译：铁（001）/氧化镁（001）/铁（001）隧穿磁阻结构的原子能级表征和自旋极化扫描隧道显微镜。
6. Tunneling-Magnetoresistance Ratio Comparison of MgO-Based Perpendicular-Magnetic-Tunneling-Junction Spin Valve Between Top and Bottom Co2Fe6B2 Free Layer Structure [O] . Du-Yeong Lee, Seung-Eun Lee, Tae-Hun Shim, 2016

机译：Co2Fe6B2上下自由层结构之间基于MgO的垂直-电磁-隧道-结自旋阀的隧道-磁阻比比较
7. 40 tunneling magnetoresistance after anneal at 380°C for tunnel junctions with iron¿oxide interface layers [O] . Zhang Zongzhi, Cardoso Susana, Freitas P. P., 2001

机译：具有氧化铁界面层的隧道结在380°C退火后的隧道磁阻为40％

Tunneling magnetoresistance with sign inversion in junctions based on iron oxide nanocrystal superlattices

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