IEEE Access (Jan 2024)

Low-Cost, Point-of-Care Potassium Ion Sensing Electrode in EGFET Configuration for Ultra-High Sensitivity

  • Vishnuram Abhinav,
  • Tejas R. Naik

DOI
https://doi.org/10.1109/ACCESS.2024.3451956
Journal volume & issue
Vol. 12
pp. 121837 – 121845

Abstract

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This paper presents the development of a non-toxic and low-cost potassium ion sensor utilizing an Extended Gate Field-Effect Transistor (EGFET) configuration with all-solid-state electrodes fabricated on a printed circuit board (PCB) substrate. An Ag/AgCl-based pseudo-reference electrode (PRE) has been fabricated planar to a ion-selective membrane (ISM) coated on the gold solid-contact electrode (SCE). The PRE has shown $\lt 1~mV/day$ drift potential, exhibiting exceptional stability and reproducibility. While the SCE has demonstrated a high sensitivity of $49~mV/log[K^{+}]$ , covering a wide linear detection range from $10^{-4}~M$ to $1~M$ with a rapid response time of less than 10 seconds. The sensor has displayed minimal hysteresis ( $\lt 15~mV$ ) and remained stable over a broad pH range ( $pH~4$ to $pH~10$ ). These uni-planar, all-solid-state electrodes along with off-the-shelf FET mitigate the requirement of additional wire bonding by utilizing a common PCB platform for sensing as well as circuitry area. Additionally, the PRE, SCE and the FET in the EGFET-configuration-based sensing system have exhibited a high current sensitivity of $1.43~(\mu A)^{1/2}/log[K^{+}]$ . Our sensor presents a practical and reliable solution for soil nutrient measurement in precision agriculture, offering significant advantages over existing potassium sensors in terms of cost-effectiveness, sensitivity, stability, and environmental safety. The presented approach holds promise for optimizing agricultural productivity and minimizing environmental impact through efficient nutrient monitoring and smart irrigation and fertilization management systems.

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