摘要
该文通过对声表面波谐振器指条厚度的优化提升了冷凝式气体传感器的灵敏度。基于流固耦合理论,利用有限元商业软件建立了有液膜负载和无液膜负载下的多物理场三维周期模型,并提取了相应的耦合模参量,利用耦合模模型及P矩阵级联技术,计算了不同指条厚度下液膜负载引起的传感器响应,获得了冷凝式声表面波气体传感器灵敏度随指条厚度的变化关系。实验中制备了6种不同电极厚度的声表面波谐振器,并利用甲基膦酸二甲酯实验样品完成了传感器的响应测试,验证了理论分析的正确性。结果表明,冷凝式声表面波气体传感器的灵敏度随指条厚度的增加先变大后减小,最优归一化电极厚度为6.4%�7.6%之间。该研究结果对进一步提升传感器灵敏度具有重要意义。
This paper improves the sensitivity of condensing gas sensor by optimizing the electrode thickness of surface acoustic wave(SAW)resonator.Based on the fluid-solid coupling theory,the multi-physics threedimensional periodic model with and without liquid film load was established in the finite element commercial software,and the corresponding coupling mode(COM)parameters were extracted.Using the COM model and P-matrix cascade technology,the sensor response of liquid film load at different electrode thickness was calculated,and the variation curve of condensing SAW sensor’s sensitivity with the electrode thickness was obtained.Experimentally,SAW detectors with six different electrode thicknesses were fabricated.Dimethyl methyl phosphonatesamples were used to test the performance of the sensor,which verified the correctness of the theoretical analysis.The results show that the sensitivity of the condensing SAW gas sensor first increases and then decreases with the increase of electrode thickness,and the optimal normalized electrode thickness is between 6.4%and 7.6%.The research results are of great significance to further improve the sensitivity of the sensor.
作者
邹亮桃
刘久玲
游然
刘明华
任伟
何世堂
ZOU Liangtao;LIU Jiuling;YOU Ran;LIU Minghua;REN Wei;HE Shitang(Institute of Acoustics,Chinese Academy of Sciences,Beijing 100190,China;University of Chinese Academy of Sciences,Beijing 100049,China)
出处
《应用声学》
CSCD
北大核心
2022年第3期412-420,共9页
Journal of Applied Acoustics
关键词
冷凝式声表面波气体传感器
流固耦合理论
指条厚度优化
灵敏度
Condensing-type surface acoustic wave gas sensor
The fluid-solid coupling theory
Electrode thickness optimization
Sensitivity
