A low excitation working frequency capacitively coupled contactless conductivity detection (C4 d) sensor for microfluidic devices

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Abstract

In this work, a new capacitively coupled contactless conductivity detection (C4 D) sensor for microfluidic devices is developed. By introducing an LC circuit, the working frequency of the new C4 D sensor can be lowered by the adjustments of the inductor and the capacitance of the LC circuit. The limits of detection (LODs) of the new C4 D sensor for conductivity/ion concentration measurement can be improved. Conductivity measurement experiments with KCl solutions were carried out in microfluidic devices (500 µm × 50 µm). The experimental results indicate that the developed C4 D sensor can realize the conductivity measurement with low working frequency (less than 50 kHz). The LOD of the C4 D sensor for conductivity measurement is estimated to be 2.2 µS/cm. Furthermore, to show the effectiveness of the new C4 D sensor for the concentration measurement of other ions (solutions), SO42− and Li+ ion concentration measurement experiments were also carried out at a working frequency of 29.70 kHz. The experimental results show that at low concentrations, the input-output characteristics of the C4 D sensor for SO42− and Li+ ion concentration measurement show good linearity with the LODs estimated to be 8.2 µM and 19.0 µM, respectively.

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He, Y., Huang, Q., He, Y., Ji, H., Zhang, T., Wang, B., & Huang, Z. (2021). A low excitation working frequency capacitively coupled contactless conductivity detection (C4 d) sensor for microfluidic devices. Sensors, 21(19). https://doi.org/10.3390/s21196381

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