Portable glucose detector based on nickel oxide modified Screen Printed Carbon Electrode (SPCE)

Fenika Annisa, Djati Handoko, Auliya’u Darojatin, Annisa sonya Puspita, Fitria yunita Dewi, Prawitno Prajitno, Muhammad hanif Fajari, Harry kasuma Aliwarga, Tribidasari anggraningrum Ivandini, D. Aldila (Editor), Z. Zainal abidin (Editor), M. Imran (Editor), J. Widakdo (Editor)

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

A portable and low-cost system prototype for glucose detector based on LMP91000EV M potentiostat has been created. Characterization of Screen-Printed Carbon Electrodes (SPCE) without modification (bare SPCE) and modified nickel oxide (NiO/SPCE) was carried out with a commercial potentiostat to see the effect of nickel oxide in detecting glucose. Through the electrochemical impedance spectroscopy method, the Rct value of 1,276.79 Ω is obtained for NiO/SPCE and 429.06 Ω for bare SPCE, so that NiO/SPCE has a slower electron transfer rate. Meanwhile, through the cyclic voltammetry method, the surface-active electrode area is 7.1×10-2cm2 for NiO/SPCE and 6.9×10-2 cm2 for bare SPCE, so that NiO/SPCE is more sensitive in detecting glucose. When the glucose concentration is varied, the Limit of Detection (LOD) and Limit of Quantitation (LOQ) values of NiO/SPCE are smaller, specifically 1.807 mM and 6.024 mM than bare SPCE, specifically 2.629 mM and 8.762 mM, so NiO/SPCE is more sensitive. When the scan rate is varied, the gradient value of NiO/SPCE is smaller, specifically -8.14×10-4 mA s/mV than bare SPCE, specifically -9.62×10-4 mA s/mV, so NiO/SPCE is not more sensitive. Next, comparing a prototype system that Trans Impedance Amplifier (TIA) gain is varied and a commercial potentiostat. As a result, the cyclic voltammogram per cycle on commercial potentiostat is more stable. The smaller the TIA gain on the system prototype, the more stable it is, this is because the noise that is amplified is getting smaller.

Original languageEnglish
Title of host publicationThe 9th International Symposium on Current Progress in Mathematics and Sciences 2023 (The 9th ISCPMS 2023) in conjunction with AUA Academic Conference on the Application of Artificial Intelligences and Data Sciences in a Modern Science for a Better Life
Pages01020
Volume61
DOIs
Publication statusPublished - 1 Jan 2024

Keywords

  • Cyclic voltammetry
  • electrochemical impedance spectroscopy
  • glucose
  • nickel oxide
  • screen printed electrode

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