Structural characterization of MOVPE-grown GaAs/AlGaAs core-shell nanowires through transmission electron microscopy

2015 1st Workshop on Nanotechnology in Instrumentation and Measurement (NANOFIM) Pub Date : 2015-07-01 DOI:10.1109/NANOFIM.2015.8425360

M. Scuderi, P. Prete, Ilio Miccoli, N. Lovergine, C. Spinella, G. Nicotra

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Abstract

We investigated by means of transmission electron microscopy (TEM) GaAs-AlGaAs core-shell nanowires (NWs) grown by Au-catalyzed metalorganic vapor phase epitaxy under As-rich vapor conditions. The structural analysis reveals that the NWs exhibit zincblende phase only and a very low density of twin defects along the NW trunk; a higher amount of twins around the NW axial (growth) direction occur instead within a tapered region closeby the NW tip. We correlate this finding to the Al-rich composition of the tapered region, as deduced by scanning-TEM (STEM) mass contrast analysis, this region being the effect of residual Au-assisted self-assembly of the material during shell overgrowth. In addition a few percent of NWs show branching during their growth, and we determine the crystal properties and defects of branched NWs. We propose that this phenomenon may be induced by Au nanoparticle instabilities during NW growth and further demonstrate that twin defects occur at the NW branching points.

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通过透射电镜表征movpe生长的GaAs/AlGaAs核壳纳米线的结构

利用透射电子显微镜(TEM)研究了在富砷气相条件下，由au催化金属有机气相外延生长的GaAs-AlGaAs核壳纳米线(NWs)。结构分析表明，NWs仅表现为锌闪锌矿相，且沿NW主干有极低密度的孪晶缺陷;而在靠近NW尖端的锥形区域内，围绕NW轴向(生长)方向的孪晶数量较多。我们将这一发现与锥形区域的富al成分联系起来，通过扫描电镜(STEM)质量对比分析推断，该区域是在壳过度生长过程中残留的au辅助材料自组装的影响。此外，在生长过程中，有百分之几的NWs会出现支化现象，并测定了支化NWs的晶体性质和缺陷。我们认为这种现象可能是由金纳米粒子在NW生长过程中的不稳定性引起的，并进一步证明了在NW分支点出现双缺陷。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 1st Workshop on Nanotechnology in Instrumentation and Measurement (NANOFIM)

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