横向场激发石英晶体谐振器频率随液体介电常数变化的研究

Chaolin Liu, T. Kong, Jinxing Liang
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引用次数: 0

摘要

本研究报道了一种将两个激励电极布置在一侧的高频侧场激发石英晶体谐振器传感器(LFE-QCR)。众所周知,当QCR用于液体LFE时,它可以同时检测机械和电气性能[1]。然而,液体介电常数与频移之间的机理和确切关系尚不清楚。本文采用两个基频不同但都很高的LFE-QCR芯片,研究了LFE-QCR对液体介电常数的频率依赖性。为了实时观察频率的变化,建立了一个基于流动注射的系统,该系统由注射泵、进样器和定制的微流池组成。用不同浓度的2-丙醇证实了LFE-QCR对介电常数的灵敏度。此外,根据可靠的实验数据,我们给出了频移与介电常数之间的近似关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation on the frequency dependence of lateral field excited quartz crystal resonator on liquid permittivity
This research reports a high frequency lateral-field-excited quartz crystal resonator sensor (LFE-QCR) arranging the two excitation electrodes on one side. It is well known that when used in liquid LFE QCR could detect both mechanical and electrical property[1]. However, the mechanism and exact relationship between the liquid permittivity and the frequency shift is not clear. In this paper, two LFE-QCR chips with different but both highly fundamental frequency are used to investigate the frequency dependence of LFE-QCR on liquid permittivity. And in order to observe the real-time change of frequency, a flow-injection-based system is established, which consist of a syringe pump, a sample injector, and a custom-made micro-flow cell. Sensitivity of LFE-QCR for permittivity has been confirmed by using different concentrations of 2-propanol. In addition, according to the reliable experiment data, we present an approximate relationship between frequency shift and permittivity.
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