Microwave Resonators Enhanced With 3D Liquid-Metal Electrodes for Microparticle Sensing in Microfluidic Applications

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2023-11-22 DOI:10.1109/JMW.2023.3327521
Yagmur Ceren Alatas;Uzay Tefek;Burak Sari;Mehmet Selim Hanay
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Abstract

In electrical sensing applications, achieving a uniform electric field at the sensing region is required to eliminate the compounding effect of particle location on the signal magnitude. To generate a uniform electric field in a microfluidic platform, 3D electrodes based on conductive electrolyte liquids have been developed before, where the ionic conductivity of the electrolyte was sufficient for impedance measurements at low frequencies (typically lower than 50 MHz). However, electrolyte liquids cannot be used as electrodes at microwave frequencies (>1 GHz) due to the low mobility of ions. Here, we used Galinstan, a room-temperature liquid metal, to microfabricate 3D liquid electrodes connected to a microwave resonator — and all integrated within a microfluidic system. By generating a highly uniform electric field, a mixture of 20 μm and 30 μm diameter polystyrene particles were measured and analyzed without any calibration for particle position. The results demonstrate the utility of liquid electrodes in enhancing the electrical characteristics of microwave resonant sensors.
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利用三维液态金属电极增强微波谐振器,用于微流控应用中的微颗粒传感
在电传感应用中,需要在传感区域实现均匀电场,以消除颗粒位置对信号幅度的复合效应。为了在微流控平台上产生均匀的电场,以前曾开发过基于导电电解质液体的三维电极,电解质的离子导电性足以在低频(通常低于 50 MHz)下进行阻抗测量。然而,由于离子的迁移率较低,电解质液体不能用作微波频率(大于 1 GHz)的电极。在这里,我们利用室温液态金属 Galinstan 微制造出了与微波谐振器相连的三维液体电极,并将其全部集成在微流体系统中。通过产生高度均匀的电场,对直径为 20 微米和 30 微米的聚苯乙烯颗粒混合物进行了测量和分析,而无需对颗粒位置进行校准。结果证明了液体电极在增强微波谐振传感器电气特性方面的实用性。
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CiteScore
10.70
自引率
0.00%
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0
审稿时长
8 weeks
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Front Cover Table of Contents Introduction to the Fall 2024 Issue IEEE Microwave Theory and Technology Society Information Over-the-Air Phase Noise Spectral Density Measurement for FMCW Radar Sensors
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