Correlation between Microstructure of Copper Oxide Thin Films and its Gas Sensing Performance at Room Temperature

Procedia Chemistry Pub Date : 2016-01-01 DOI:10.1016/j.proche.2016.07.007

Nafarizal Nayan , Mohd Zainizan Sahdan , Low Jia Wei , Mohd Khairul Ahmad , Jais Lias , Soon Chin Fhong , Ali Yeon Md Shakaff , Ammar Zakaria , Ahmad Faizal Mohd Zain

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引用次数: 10

Abstract

Radio-frequency magnetron sputtering using a Cu target was used to deposit cuprous oxide and cupric oxide thin films on silicon wafer. The substrate bias voltage and the O₂ flow ratio were varied during the deposition. The deposited thin films were characterized using scanning electron microscope. We found that the spherical and pyramid shapes structure of copper oxide thin films were deposited at critical O₂ flow ratio between 7 and 14%. The influence of substrate bias voltage was small and negligible. The deposited thin films were used for sensing characterization using ethanol vapor. Experimental results reveal that the pyramid shape of copper oxide thin film contribute to high respond rate when exposed to ethanol vapor. The respond and recovery rates which were measured at room temperature were very fast. This work had successfully demonstrated the formation of optimized copper oxide thin films and their usage for gas sensing application.

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室温下氧化铜薄膜微观结构与气敏性能的关系

采用射频磁控溅射技术在硅晶片上沉积氧化亚铜和氧化铜薄膜。在沉积过程中，衬底偏置电压和氧流比发生了变化。用扫描电镜对沉积的薄膜进行了表征。我们发现，在临界O2流动比为7 ~ 14%时，沉积的氧化铜薄膜呈球形和金字塔状结构。衬底偏置电压的影响很小，可以忽略不计。制备的薄膜用于乙醇蒸汽的传感表征。实验结果表明，氧化铜薄膜呈金字塔形，对乙醇蒸气有较高的响应速率。在室温下测得的反应速度和回收率都非常快。这项工作成功地证明了优化的氧化铜薄膜的形成及其在气敏应用中的应用。

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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Procedia Chemistry

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