We present current-voltage (I-V) characteristics of an individual carbon nanotube (CNT) filled with Cr₂O₃, a multi-functional magnetic oxide relevant to spintronics. We demonstrate that a filled CNT during a two probe I-V scan in suspended geometry, can be used like a nano-furnace for controlled restructuring of the oxide encapsulate. With proper utilization of Joule heating during I-V scans, the encapsulate, initially in the form of a polycrystalline nano-wire, converts to beads, nano-crystals and sheets within the CNT. These morphological phases are formed and preserved by controlling the amplitude, rate and holding time of the bias voltage. The sequential restructuring, observed in real time by Transmission Electron Microscopy (TEM), is also accompanied by a substantial enhancement in the current flowing through the CNT. We further demonstrate that advantageously tailoring the morphology of the encapsulate is linked to this current enhancement and can be a route for heat dissipation in nano devices. Magnetization measurements reveal that Cr₂O₃, a well known antiferromagnetic and magnetoelectric, when confined within CNT, exhibits logarithmic time dependence. This slow magnetization dynamics is associated to a pinning mechanism that points towards the possibility of stress induced moments in this system. These measurements elucidate novel magnetic properties of the encapsulate.
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机译:我们介绍了填充有Cr 2 O 3的单个碳纳米管(CNT)的电流-电压(I-V)特性,Cr 2 O 3是与自旋电子学相关的多功能磁性氧化物。我们证明了在悬浮状态下两次探针I-V扫描过程中填充的CNT可以像纳米炉一样用于控制氧化物封装的重组。通过在I-V扫描过程中适当利用焦耳加热,最初以多晶纳米线形式存在的封装物会在CNT内转化为小珠,纳米晶体和薄片。通过控制偏置电压的幅度,速率和保持时间,可以形成并保留这些形态相。通过透射电子显微镜(TEM)实时观察到的顺序重组还伴随着流过CNT的电流的显着增强。我们进一步证明,有利地定制封装的形态与该电流增强有关,并且可以是纳米器件中的散热途径。磁化测量表明,Cr 2 O 3(一种众所周知的反铁磁和磁电)被限制在CNT中时,表现出对数时间依赖性。这种缓慢的磁化动力学与钉扎机制相关联,该钉扎机制指出了该系统中应力引起的力矩的可能性。这些测量阐明了封装的新颖的磁性。
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