Sensors (May 2023)

IoT Electrochemical Sensor with Integrated Ni(OH)<sub>2</sub>–Ni Nanowires for Detecting Formaldehyde in Tap Water

  • Špela Trafela,
  • Abhilash Krishnamurthy,
  • Kristina Žagar Soderžnik,
  • Urška Kavčič,
  • Igor Karlovits,
  • Beno Klopčič,
  • Sašo Šturm,
  • Kristina Žužek

DOI
https://doi.org/10.3390/s23104676
Journal volume & issue
Vol. 23, no. 10
p. 4676

Abstract

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Simple, low-cost methods for sensing volatile organic compounds that leave no trace and do not have a detrimental effect on the environment are able to protect communities from the impacts of contaminants in water supplies. This paper reports the development of a portable, autonomous, Internet of Things (IoT) electrochemical sensor for detecting formaldehyde in tap water. The sensor is assembled from electronics, i.e., a custom-designed sensor platform and developed HCHO detection system based on Ni(OH)2–Ni nanowires (NWs) and synthetic-paper-based, screen-printed electrodes (pSPEs). The sensor platform, consisting of the IoT technology, a Wi-Fi communication system, and a miniaturized potentiostat can be easily connected to the Ni(OH)2–Ni NWs and pSPEs via a three-terminal electrode. The custom-made sensor, which has a detection capability of 0.8 µM/24 ppb, was tested for an amperometric determination of the HCHO in deionized (DI) and tap-water-based alkaline electrolytes. This promising concept of an electrochemical IoT sensor that is easy to operate, rapid, and affordable (it is considerably cheaper than any lab-grade potentiostat) could lead to the straightforward detection of HCHO in tap water.

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