以磁隧道结为器件平台探索基于单分子磁体的分子自旋电子器件的室温输运。

Exploring room-temperature transport of single-molecule magnet-based molecular spintronics devices using the magnetic tunnel junction as a device platform.

作者信息

Tyagi Pawan, Riso Christopher, Amir Uzma, Rojas-Dotti Carlos, Martínez-Lillo Jose

机构信息

Department of Mechanical Engineering, University of the District of Columbia 4200 Connecticut Avenue NW Washington DC-20008 USA

Instituto de Ciencia Molecular (ICMol), Universitat de València C/Catedrático José Beltrán 46980 Paterna València Spain

出版信息

RSC Adv. 2020 Mar 31;10(22):13006-13015. doi: 10.1039/c9ra09003g. eCollection 2020 Mar 30.

DOI:10.1039/c9ra09003g

PMID:35492095

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9051408/

Abstract

A device architecture utilizing a single-molecule magnet (SMM) as a device element between two ferromagnetic electrodes may open vast opportunities to create novel molecular spintronics devices. Here, we report a method of connecting an SMM to the ferromagnetic electrodes. We utilized a nickel (Ni)-AlO -Ni magnetic tunnel junction (MTJ) with the exposed side edges as a test bed. In the present work, we utilized an SMM with a hexanuclear [Mn(μ-O)(HN-sao)(6-atha)(EtOH)] [HN-saoH = salicylamidoxime, 6-atha = 6-acetylthiohexanoate] complex that is attached to alkane tethers terminated with thiols. These Mn-based molecules were electrochemically bonded between the two Ni electrodes of an exposed-edge tunnel junction, which was produced by the lift-off method. The SMM-treated MTJ exhibited current enhancement and transitory current suppression at room temperature. Monte Carlo simulation was utilized to understand the transport properties of our molecular spintronics device.

摘要

一种利用单分子磁体（SMM）作为两个铁磁电极之间的器件元件的器件架构，可能为创造新型分子自旋电子器件带来巨大机遇。在此，我们报道一种将SMM连接到铁磁电极的方法。我们利用具有暴露侧边的镍（Ni）-AlO-Ni磁性隧道结（MTJ）作为测试平台。在本工作中，我们使用了一种具有六核[Mn(μ-O)(HN-sao)(6-atha)(EtOH)] [HN-saoH = 水杨醛肟，6-atha = 6-乙酰硫基己酸酯]配合物的SMM，该配合物连接到以硫醇终止的烷烃链上。这些基于锰的分子通过剥离法制备的暴露边缘隧道结的两个镍电极之间进行了电化学键合。经SMM处理的MTJ在室温下表现出电流增强和瞬态电流抑制。利用蒙特卡罗模拟来理解我们的分子自旋电子器件的输运特性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1a28/9051408/39729c296d4e/c9ra09003g-f1.jpg

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A new family of oxime-based hexanuclear manganese(III) single molecule magnets with high anisotropy energy barriers.一种基于肟的新型六核锰(III)单分子磁体，具有高各向异性能量势垒。

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以磁隧道结为器件平台探索基于单分子磁体的分子自旋电子器件的室温输运。

Exploring room-temperature transport of single-molecule magnet-based molecular spintronics devices using the magnetic tunnel junction as a device platform.

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