Frequency interference between two mesa-shaped quartz crystal microbalances

Feng Shen; OShea S.J.; Lee K.H.; Pin Lu; Ng T.Y.

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Frequency interference between two mesa-shaped quartz crystal microbalances

机译：两个台面形石英微天平之间的频率干扰

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The multichannel quartz crystal microbalance (MQCM) is very attractive for biosensor applications. The principle of the MQCM design involves fabricating arrays of quartz microbalances on a single substrate, and it is important that the individual sensor performance is not influenced by the neighboring devices. Feasible ways to control the coupling of acoustical energy within a MQCM structure are to increase the difference in the resonance frequency between the electroded and unelectroded portions of the substrate; and a practical way to achieve this is to use mesa structures. In this paper, the frequency interference between two mesa-shaped quartz crystal microbalances is investigated using Mindlin's theory. The results show that even a very small mesa height (/spl sim/5% of the plate thickness) can greatly reduce the frequency interference and more effectively trap the acoustic energy. This allows for a broader design window and higher packing density for MQCM applications.

机译：多通道石英晶体微量天平（MQCM）对于生物传感器应用非常有吸引力。 MQCM设计的原理涉及在单个基板上制造石英微量天平的阵列，并且重要的是各个传感器的性能不受相邻设备的影响。在MQCM结构中控制声能耦合的可行方法是增加基板的带电部分和非带电部分之间的共振频率之差。实现这一目标的一种实用方法是使用台面结构。本文使用Mindlin理论研究了两个台面形石英晶体微天平之间的频率干扰。结果表明，即使是很小的台面高度（/ spl sim /板厚的5％）也可以大大减少频率干扰并更有效地捕获声能。这为MQCM应用程序提供了更大的设计窗口和更高的包装密度。

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来源
《IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control》 |2003年第6期|p.668-675|共8页
作者
Feng Shen; OShea S.J.; Lee K.H.; Pin Lu; Ng T.Y.;
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作者单位

Inst. of High Performance Comput., Singapore, Singapore;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
microbalances; crystal resonators; acoustic wave interference; quartz; biosensors; chemical sensors; frequency interference; mesa-shaped quartz crystal microbalances; multichannel microbalance; biosensor applications; quartz microbalance arrays; mesa;

机译：微量天平晶体谐振器;声波干扰;石英;生物传感器化学传感器;频率干扰;台面形石英晶体微量天平;多通道微量天平生物传感器应用;石英微量天平阵列;台面;

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专利

1. Frequency interference between two mesa-shaped quartz crystal microbalances [J] . Feng Shen, OShea S.J., Lee K.H., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2003,第6期

机译：两个台面形石英微天平之间的频率干扰
2. Frequency coupling and energy trapping in mesa-shaped multichannel quartz crystal microbalances [J] . Shen F., Lu P., OShea SJ., Sensors and Actuators, A. Physical . 2004,第2a3期

机译：台面形多通道石英微天平的频率耦合和能量捕获
3. Frequency interference between two quartz crystal microbalances [J] . Feng Shen, Kwok Hong Lee, OShea S.J., IEEE sensors journal . 2003,第3期

机译：两个石英微天平之间的频率干扰
4. Energy trapping in mesa-shaped quartz crystal microbalance [C] . Shen, F., Lee, . 2002

机译：台面形石英晶体微天平中的能量捕获
5. Design and Analysis of High-Frequency Quartz Crystal Microbalance Sensor Array with Concentric Electrodes and Dual Inverted Mesa Structure for Multiple Gas Detection [D] . Joseph, Aashish . 2019

机译：具有同心电极的高频石英晶体微稳态传感器阵列的设计与分析，具有多种气体检测的双倒立MESA结构
6. The Resistance–Amplitude–Frequency Effect of In–Liquid Quartz Crystal Microbalance [O] . Xianhe Huang, Qingsong Bai, Qi Zhou, 2017

机译：液态石英晶体微天平的电阻-幅度-频率效应
7. A Study The Effect Of Coating Polystyrene, Znpc, And Annealing Process On The Resonant Frequency Of Quartz Crystal Microbalance [O] . Fifin Tresna Juwita, Fadli Robiandi, Masruroh Masruroh, 2021

机译：研究涂层聚苯乙烯，ZnPC和退火过程对石英晶体微稳定谐振频率的影响
8. Quartz Crystal Microbalances: A Refined Technique for Determining Changes in Mass Loading from Frequency Shifts. [R] . fowler, m. m. sedlacek, w. a. 1978

机译：石英晶体微天平：一种用于确定频移的质量负荷变化的精细技术。

Frequency interference between two mesa-shaped quartz crystal microbalances

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