Tailoring the Surface Properties of ZnO Nanowires by ALD Deposition

Camilla Baratto, Guido Faglia, Thi Than Le Dang, Matteo Ferroni, Viktoria Holovanova, Bohdan Nazarchuk, Hanna Hakola, Tapio Niemi, Nikolai Tkachenko, Viacheslav Golovanov
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Abstract

Innovative research on metal‐oxide gas sensors involves nanostructuring and surface modification as key elements to tailor sensitivity and selectivity. This work addresses a ZnO nanowire‐based sensing device obtained by coupling a lithographically prepared substrate with hydrothermal ZnO growth, to align and interconnect the nanowires between two electrical contacts. Furthermore, conformal coating by atomic layer deposition technique allows functionalization of the surface of the nanowires with sub‐monolayers of Al2O3 and TiO2. A detailed analysis is carried out from a morphological and structural point of view with photoluminescence and Raman spectroscopy and electron microscopy. The material characterization results are analyzed in comparison with the functional characterization in gases toward reducing (NO2) and oxidizing (H2S) gases. Unparalleled sensing enhancement with Atomic Layer Deposition functionalization is obtained for NO2 detection. The passivation role of surface states is discussed combining information from experimental techniques with a proposed model.

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通过 ALD 沉积技术定制氧化锌纳米线的表面特性
金属氧化物气体传感器的创新研究涉及纳米结构和表面改性,这是定制灵敏度和选择性的关键因素。这项工作涉及一种基于氧化锌纳米线的传感设备,该设备通过将光刻制备的基底与水热氧化锌生长相结合,使纳米线在两个电触点之间排列和互连。此外,通过原子层沉积技术的共形涂层,纳米线的表面还可以实现 Al2O3 和 TiO2 亚单层的功能化。通过光致发光、拉曼光谱和电子显微镜从形态和结构的角度进行了详细分析。将材料表征结果与还原性气体(二氧化氮)和氧化性气体(H2S)的功能表征结果进行了比较分析。通过原子层沉积功能化,二氧化氮检测的传感能力得到了前所未有的增强。结合实验技术信息和提出的模型,讨论了表面状态的钝化作用。
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