基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition
纳米结构的氧化锌(ZnO)可以吸附大量的气体,并且在吸附了气体之后形成特定的表面态,从而对其导电性产生显著的影响.用水热法在ITO电极之间制备了ZnO纳米棒阵列,通过扫描电镜(SEM)、X射线衍射(XRD)和高分辨透射电镜(HRTEM)等表征后发现,制得的ZnO纳米棒具有较好的结晶性.在200℃下,当1.2mg/L的CO气体通过ZnO纳米棒时,ITO电极两端的电流发生了较明显的改变,显示该装置对CO气体具有较明显的响应(灵敏度为18).可以预见通过改变电极之间生长的ZnO纳米结构形貌,提高纳米结构的表面利用率,以及适当提高测试温度,可以进一步提高传感器的灵敏度.制作的气体传感器具有简单、廉价、...
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sg-ntu-dr.10356-1807352024-10-25T15:41:02Z 基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition Wei, Ang Huang, Wei Xu, Chunxiang Sun, Xiaowei School of Electrical and Electronic Engineering Engineering Hydrothermal method 水热法 Zinc oxide 氧化锌 纳米结构的氧化锌(ZnO)可以吸附大量的气体,并且在吸附了气体之后形成特定的表面态,从而对其导电性产生显著的影响.用水热法在ITO电极之间制备了ZnO纳米棒阵列,通过扫描电镜(SEM)、X射线衍射(XRD)和高分辨透射电镜(HRTEM)等表征后发现,制得的ZnO纳米棒具有较好的结晶性.在200℃下,当1.2mg/L的CO气体通过ZnO纳米棒时,ITO电极两端的电流发生了较明显的改变,显示该装置对CO气体具有较明显的响应(灵敏度为18).可以预见通过改变电极之间生长的ZnO纳米结构形貌,提高纳米结构的表面利用率,以及适当提高测试温度,可以进一步提高传感器的灵敏度.制作的气体传感器具有简单、廉价、环保的特点,对于气体传感器的设计提供了新的思路. Zinc oxide(ZnO) in nanostructure has the feature to adsorb great amount of gas in order to form a certain kind of surface state.The electronic conductivity of ZnO nanorod experiences a considerable change during the process of adsorption.In this work,gas sensor was fabricated from ZnO nanorod arrays prepared via a facile hydrothermal decomposition on Indium Tin Oxide(ITO) glass.The ZnO nanorods show very good crystalline characterized by Scanning Electronic Microscopy(SEM),X-Ray Diffraction and High Resolution Transmission Electronic Microscopy(HRTEM).It was found that the sensor show sensitive response to the introduction of CO of 1.25 mg/Lat 200℃ with a sensitivity factor(S) of 18.It would be desirable that even better sensitivity be achieved by means of enhancement of the ZnOcrystalline structure and improvement of the surface reaction efficiency.More importantly,this is a simple cheap approach to manufacture gas sensors with nice environment-friendly.It would probably turn out to be an economic way to produce gas sensors in a large scale with low cost to meet the industrial requirements. Published version 江苏省教育厅省属高校自然科学基础研究面上项目 (KJD430149);江苏省 “青蓝工程 ”优 秀 青 年 骨 干 教 师 基 金(TJ207014);国家自然科学基金纳米重大研究计划重点项目 (90406021)资助项目 2024-10-22T05:40:53Z 2024-10-22T05:40:53Z 2007 Journal Article Wei, A., Huang, W., Xu, C. & Sun, X. (2007). 基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition. 发光学报 Chinese Journal of Luminescence, 28(6), 880-884. 1000-7032 https://hdl.handle.net/10356/180735 https://cjl.lightpublishing.cn/zh/article/1586491/ 6 28 880 884 zh 发光学报 Chinese Journal of Luminescence © 2007《发光学报》编辑部. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at https://cjl.lightpublishing.cn/zh/article/1586491/. application/pdf |
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Engineering Hydrothermal method 水热法 Zinc oxide 氧化锌 Wei, Ang Huang, Wei Xu, Chunxiang Sun, Xiaowei 基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition |
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纳米结构的氧化锌(ZnO)可以吸附大量的气体,并且在吸附了气体之后形成特定的表面态,从而对其导电性产生显著的影响.用水热法在ITO电极之间制备了ZnO纳米棒阵列,通过扫描电镜(SEM)、X射线衍射(XRD)和高分辨透射电镜(HRTEM)等表征后发现,制得的ZnO纳米棒具有较好的结晶性.在200℃下,当1.2mg/L的CO气体通过ZnO纳米棒时,ITO电极两端的电流发生了较明显的改变,显示该装置对CO气体具有较明显的响应(灵敏度为18).可以预见通过改变电极之间生长的ZnO纳米结构形貌,提高纳米结构的表面利用率,以及适当提高测试温度,可以进一步提高传感器的灵敏度.制作的气体传感器具有简单、廉价、环保的特点,对于气体传感器的设计提供了新的思路. Zinc oxide(ZnO) in nanostructure has the feature to adsorb great amount of gas in order to form a certain kind of surface state.The electronic conductivity of ZnO nanorod experiences a considerable change during the process of adsorption.In this work,gas sensor was fabricated from ZnO nanorod arrays prepared via a facile hydrothermal decomposition on Indium Tin Oxide(ITO) glass.The ZnO nanorods show very good crystalline characterized by Scanning Electronic Microscopy(SEM),X-Ray Diffraction and High Resolution Transmission Electronic Microscopy(HRTEM).It was found that the sensor show sensitive response to the introduction of CO of 1.25 mg/Lat 200℃ with a sensitivity factor(S) of 18.It would be desirable that even better sensitivity be achieved by means of enhancement of the ZnOcrystalline structure and improvement of the surface reaction efficiency.More importantly,this is a simple cheap approach to manufacture gas sensors with nice environment-friendly.It would probably turn out to be an economic way to produce gas sensors in a large scale with low cost to meet the industrial requirements. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wei, Ang Huang, Wei Xu, Chunxiang Sun, Xiaowei |
| format |
Article |
| author |
Wei, Ang Huang, Wei Xu, Chunxiang Sun, Xiaowei |
| author_sort |
Wei, Ang |
| title |
基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition |
| title_short |
基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition |
| title_full |
基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition |
| title_fullStr |
基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition |
| title_full_unstemmed |
基于水热法制备的ZnO纳米棒的CO传感器 = CO gas sensor based on ZnO nanorod array grown by hydrothermal decomposition |
| title_sort |
基于水热法制备的zno纳米棒的co传感器 = co gas sensor based on zno nanorod array grown by hydrothermal decomposition |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180735 https://cjl.lightpublishing.cn/zh/article/1586491/ |
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1814777791876431872 |