High sensitive detection of flow rate and permittivity through microfluidics based on complementary split-ring resonators

Chia-Ming Hsu, Chin-Lung Yang
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引用次数: 4

Abstract

This paper presents a high sensitive microfluidics flowmeter based on a complementary split-ring resonator (CSRR) sensor which can detect a tiny amount of 1.65 μL unknown fluid using permittivity estimation. The CSRR can detect the spatial distribution of the fluid to calculate the tangent flow rate. A multiring with tapped feeding is designed to improve the sensitivity and wide measurable dynamic range and to enhance the high resolution of position. Analysis of the sensor was calculated to estimate the resonance frequency. Microfluidics was fabricated using a glass substrate to achieve a high quality factor sensor. From the measured results, there is an average error of 6% using a single ring Rogers sensor. Moreover, the average error can be reduced to 3.35 % using the glass sensor.
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基于互补裂环谐振器的微流体流量和介电常数的高灵敏度检测
本文提出了一种基于互补裂环谐振器(CSRR)传感器的高灵敏度微流体流量计,利用介电常数估计可以检测到少量1.65 μL的未知流体。CSRR可以检测流体的空间分布来计算切线流量。设计了一种带抽头进给的多环,提高了灵敏度和宽的可测动态范围,提高了位置的高分辨率。对传感器进行分析计算,估计出谐振频率。采用玻璃基板制备微流控器件,实现了高质量的因子传感器。从测量结果来看,使用单环罗杰斯传感器的平均误差为6%。此外,使用玻璃传感器可以将平均误差降低到3.35%。
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