Pick-up strategies for and electrical characterization of ZnO nanowires with a SEM-based nanomanipulator

IF 3.5 3区工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Nami Jishu yu Jingmi Gongcheng/Nanotechnology and Precision Engineering Pub Date : 2023-03-01 DOI:10.1063/10.0016877

Mei Liu, Lingdi Kong, Weilin Su, Aristide Djoulde, K. Cheng, Jinbo Chen, Jinjun Rao, Zhiming M. Wang

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Abstract

Because of their unique mechanical and electrical properties, zinc oxide (ZnO) nanowires are used widely in microscopic and nanoscopic devices and structures, but characterizing them remains challenging. In this paper, two pick-up strategies are proposed for characterizing the electrical properties of ZnO nanowires using SEM equipped with a nanomanipulator. To pick up nanowires efficiently, direct sampling is compared with electrification fusing, and experiments show that direct sampling is more stable while electrification fusing is more efficient. ZnO nanowires have cut-off properties, and good Schottky contact with the tungsten probes was established. In piezoelectric experiments, the maximum piezoelectric voltage generated by an individual ZnO nanowire was 0.07 V, and its impedance decreased with increasing input signal frequency until it became stable. This work offers a technical reference for the pick-up and construction of nanomaterials and nanogeneration technology.

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基于扫描电镜的ZnO纳米线拾取策略及电学表征

氧化锌纳米线由于其独特的机械和电气性能，在微观和纳米级器件和结构中得到了广泛的应用，但对其进行表征仍然具有挑战性。在本文中，提出了两种拾取策略，以表征ZnO纳米线的电学性质，并配备了纳米机械手。为了有效地提取纳米线，将直接取样与通电熔断进行了比较，实验结果表明，直接取样更稳定，而通电熔断更有效。ZnO纳米线具有截止特性，并与钨探针建立了良好的肖特基接触。在压电实验中，单根ZnO纳米线产生的最大压电电压为0.07 V，其阻抗随着输入信号频率的增加而减小，直至趋于稳定。本研究为纳米材料的提取和构建以及纳米生成技术提供了技术参考。

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