Growth of zinc oxide sensitive layer on microcantilever surface for gas sensor application

2015 International Conference on Quality in Research (QiR) Pub Date : 2015-08-01 DOI:10.1109/QIR.2015.7374916

Lia Aprilia, R. Nuryadi, R. D. Mayasari, D. Gustiono, Masmui, J. Raharjo, Yelvia Deni, B. Yuliarto, M. Iqbal, D. Hartanto

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引用次数: 1

Abstract

Microcantilever-based sensors have been demonstrated to be a high sensitive sensor in sensing application areas of chemistry, physics, biology, and biomedical. To determine the sensor selectivity, the microcantilever surface must be coated by a sensitive layer. In this work, zinc oxide (ZnO) is prepared on the microcantilever surface as a sensitive layer by employing a crystal growth method. To confirm the elemental of ZnO sensitive layer, the coated microcantilever surface is characterized by energy dispersive spectroscopy (EDS). Next, we investigate the response of microcantilever sensor to CO2 gas in dynamic mode operation. The results show that the microcantilever sensitively responds the gas, which is indicated by the change of resonance frequency. Moreover, the consistent sensing behavior with certain resonance frequency shift due to gas response over repetitive cycles is found. The quite small of response and recovery times indicate that the sensing performance of the microcantilever with ZnO sensitive layer has high repeatablility and high reproducibility.

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用于气体传感器的微悬臂表面氧化锌敏感层的生长

微悬臂梁传感器在化学、物理、生物、生物医学等传感领域已被证明是一种高灵敏度的传感器。为了确定传感器的选择性，必须在微悬臂表面涂上一层敏感层。在本研究中，采用晶体生长的方法在微悬臂表面制备氧化锌(ZnO)作为敏感层。为了确定ZnO敏感层的元素，利用能谱仪(EDS)对微悬臂表面进行了表征。接下来，我们研究了微悬臂梁传感器在动态模式下对CO2气体的响应。结果表明，微悬臂梁对气体有灵敏的响应，这可以通过谐振频率的变化来体现。此外，由于重复循环的气体响应，发现了具有一定共振频移的一致传感行为。较短的响应时间和恢复时间表明ZnO敏感层微悬臂梁的传感性能具有较高的可重复性和再现性。

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 International Conference on Quality in Research (QiR)

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