Issue 5, 2018

Impedance-based real-time position sensor for lab-on-a-chip devices

Abstract

This paper presents the theoretical and experimental development of an integrated position sensor for lab-on-a-chip devices. The interest for single cell analysis is growing. However, this requires monitoring and controlling cell displacements in real time during their journey in the chip. Due to the high number of cells that must be monitored at the same time, classical vision-based sensors are not suitable. This paper aims to present an alternative based on impedance measurement. The position of the cells is obtained from the variation of impedance measured between two electrodes. This technique presents several advantages: the sensor is integrated into the chip, the measurement electrodes are compatible with the fabrication process of actuation electrodes for dielectrophoresis, the sampling time of the sensor is high and the position of the cells can be obtained in real time. This article highlights the concept of position-sensitive impedance sensing. The design of the chip, and in particular of the electrodes, is discussed to improve the sensitivity and repeatability of the measurement. The issue of real-time detection in a noisy environment is solved by using an extended Kalman filter. As a first proof of concept, this article presents experimental validation on a 1D case to determine the longitudinal position of 8.7 μm diameter beads in a channel.

Graphical abstract: Impedance-based real-time position sensor for lab-on-a-chip devices

Article information

Article type
Paper
Submitted
15 Dec 2017
Accepted
03 Feb 2018
First published
06 Feb 2018

Lab Chip, 2018,18, 818-831

Impedance-based real-time position sensor for lab-on-a-chip devices

B. Brazey, J. Cottet, A. Bolopion, H. Van Lintel, P. Renaud and M. Gauthier, Lab Chip, 2018, 18, 818 DOI: 10.1039/C7LC01344B

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