Novel, compact electrochemical and impedance instrumentation

Abstract

This paper presents the development of a novel, compact electrochemical and impedance instrumentation utilizing an analog integrated circuit (IC) for biosensing applications. Given the increasing availability of multifunctional integrated circuits (ICs), there is a growing need for devices capable of versatile applications spanning multiple fields. To address this requirement, a design was tailored to accommodate multifunctional techniques for biosensing. By combining multi-layer printed circuit board (PCB) techniques with 3D printing, the module was compact and capable of cyclic voltammetry (CV) and electrical impedance spectroscopy (EIS) measurements. Additionally, a comparison was conducted between the CV functionality of a commercial and the customized module. The results demonstrated that the customized module outperformed the commercial module. The Bode and Nyquist plots obtained from the EIS measurements accurately depicted the impedance values of resistance (R) and capacitance (C) in basic RC circuits. The experimental results show the error of R was below 2% and C was below 4% across the full frequency range from 500 Hz to 10 kHz. Furthermore, the high performance of this system was demonstrated by its successful application in monitoring the ripeness of bananas through EIS measurements. These measurements specified the total impedance and phase to assess the ripening stages accurately. This suggests the potential of the proposed system for utilizing impedance measurements in controlling fruit quality. Based on the achieved results, the proposed system holds promise for various electrochemical research and monitoring applications, particularly for electrochemical sensors and biosensors.