Imaging the mechanical properties of nanowire arrays

Tianran Ma, M. Fahrbach, Jiushuai Xu, Frank Eric Boye Anang, Maximilian Vergin, Florian Meierhofer, Uwe Brand, Andreas Waag, Erwin Peiner
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Abstract

Dimensional and contact resonance (CR) images of nanowire (NW) arrays (NWAs) are measured using our newly developed microprobe CR imaging (CRI) setup. Then a reference method is employed to calculate the indentation modulus of NWs (M i,NW ) representing the elasticity of NWs, by measuring NWAs and reference samples at the same static probing force. Furthermore, topography is imaged in combination with CR and M i,NW separately by software, in which the z values indicate the topography of the NWs and the color bars show its CR or M i,NW . Then NWs’ topography relation to M i,NW is visualized. As typical examples, 3D imaging of topography and measurement of M i,NW is performed with Si<111> pillar arrays as well as Cu and ZnO NWAs. The novel method enables fast mechanical performance measurements of large-scale vertically-aligned NWAs without releasing them from their respective substrates. For instance, the diameter and pitch of the Si<111> pillars and the diameter of the Cu NWAs are in good agreement with the values measured by scanning electron microscopy (SEM). The position of ZnO NWs bunches grown at arbitrary sites on silicon can be identified with the help of combined topography and indentation modulus images. Furthermore, M i,NW measured by our homemade CRI setup agrees well with bulk values. Differences between the measured M i,NW and bulk M i values may be related to a size effect in NW elasticity.
纳米线阵列机械特性成像
利用我们新开发的微探针CR成像(CRI)装置测量了纳米线(NW)阵列(NWAs)的尺寸和接触共振(CR)图像。然后,通过在相同的静态探测力下测量纳米线阵列和参考样品,采用参考方法计算代表纳米线弹性的纳米线压痕模量(M i,NW )。此外,地形与 CR 和 M i,NW 分别通过软件成像,其中 z 值表示 NW 的地形,色条表示其 CR 或 M i,NW。然后就可以直观地看到 NW 与 M i,NW 的地形关系。作为典型的例子,对 Si 柱阵列以及 Cu 和 ZnO NWAs 进行了形貌的三维成像和 M i,NW 的测量。这种新方法可以快速测量垂直排列的大规模 NWA 的机械性能,而无需将它们从各自的基底上释放。例如,硅柱的直径和间距以及铜NWA的直径与扫描电子显微镜(SEM)测量的值非常吻合。结合形貌和压痕模量图像,可以确定在硅上任意位置生长的氧化锌氮化物束的位置。此外,用我们自制的 CRI 装置测量的 M i,NW 与块体值非常吻合。测得的 M i,NW 值与块体 M i 值之间的差异可能与 NW 弹性的尺寸效应有关。
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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