Chandrasiri A. Ihalawela, Mayur Sundararajan, Gang Chen
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引用次数: 0
摘要
了解相变(PC)材料在缩放效应方面的相变行为对于 PC 材料的应用至关重要。在所有 PC 材料中,SbTe 二元在著名的 Ge-Sb-Te 系统中发挥着重要作用。在这里,我们采用了一种非常规的、具有成本效益的方法,利用模板化电沉积制造出了多种 Sb2Te3 非晶纳米线原型(直径为 18-220 nm)。我们对非晶纳米线的成分、形态和结构进行了表征,并使用四探针电阻率仪测量了模板内纳米线的结晶温度。我们发现非晶 Sb2Te3 纳米线的结晶温度可随纳米线直径的变化而调整,直径≤35 nm 的纳米线的结晶温度显著升高。我们的研究揭示了 PC 纳米线随尺寸变化的相变行为,对进一步推动 PC 存储技术的发展具有重要意义。
Amorphous Sb2Te3 nanowires: Synthesis, characterization and size-dependent phase transition behavior
Understanding the phase transition behavior of phase-change (PC) material with respect to the scaling effect is essential for the application of PC materials. Among all the PC materials, SbTe binary plays a significant role in the well-known Ge-Sb-Te system. Here we have used an unconventional and cost-effective method to fabricate a wide range of prototypical Sb2Te3amorphous nanowires (18–220 nm in diameter) using templated electrodeposition. Compositional, morphological, and structural characterization of the amorphous nanowires were performed, and the crystallization temperature of in-template nanowires was measured using a four-probe resistivity meter. We report that the crystallization temperature of amorphous Sb2Te3 nanowires can be tuned with respect to the diameter of the nanowires and a significant increase was observed for the nanowires with diameters ≤35 nm. Our study sheds light on the size-dependent phase transition behavior of PC NWs with implications for further advancement of the PC memory technology.
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