PLoS ONE (Jan 2020)

Multipurpose chemical liquid sensing applications by microwave approach.

  • Ayşegül Karatepe,
  • Oğuzhan Akgöl,
  • Yadgar I Abdulkarim,
  • Yadgar I Abdulkarim,
  • Şekip Dalgac,
  • Fahmi F Muhammadsharif,
  • Halgurd N Awl,
  • Lianwen Deng,
  • Emin Ünal,
  • Muharrem Karaaslan,
  • Luo Heng,
  • Shengxiang Huang

DOI
https://doi.org/10.1371/journal.pone.0232460
Journal volume & issue
Vol. 15, no. 5
p. e0232460

Abstract

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In this work, a novel sensor based on printed circuit board (PCB) microstrip rectangular patch antenna is proposed to detect different ratios of ethanol alcohol in wines and isopropyl alcohol in disinfectants. The proposed sensor was designed by finite integration technique (FIT) based high-frequency electromagnetic solver (CST) and was fabricated by Proto Mat E33 machine. To implement the numerical investigations, dielectric properties of the samples were first measured by a dielectric probe kit then uploaded into the simulation program. Results showed a linear shifting in the resonant frequency of the sensor when the dielectric constant of the samples were changed due to different concentrations of ethanol alcohol and isopropyl alcohol. A good agreement was observed between the calculated and measured results, emphasizing the usability of dielectric behavior as an input sensing agent. It was concluded that the proposed sensor is viable for multipurpose chemical sensing applications.