<p>This study aims to develop a highly sensitive buckypaper-based electrochemical biosensor utilizing CuO-decorated acid-treated multi-walled carbon nanotubes (CuO/a-MWCNTs) for glucose detection. Acid treatment introduced carboxyl groups on the MWCNT surface, facilitating uniform CuO nanoparticle deposition and enhancing electron transfer kinetics. The optimized biosensor, incorporating CuO/a-MWCNTs with a CuO loading of 0.05 mol%, exhibited a high sensitivity of 471.0 µA·mM<sup>−1</sup>·cm<sup>−2</sup>, approximately 3.6 times greater than that of MWCNT-only electrodes. It also demonstrated a wide linear detection range (0–10 mM) and a remarkably low limit of detection (LoD) of 0.39 mM. These findings suggest that CuO/a-MWCNT-based biosensors hold great potential for highly sensitive and efficient glucose monitoring.</p>

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Development of CuO@a-MWCNTs buckypaper for non-enzymatic glucose biosensing

  • Hyeong Jun Park,
  • Min Ho Kim,
  • Ju Hyeong Park,
  • Dong Min Shin,
  • Jeong Hyeon Yang,
  • Jung Pil Noh,
  • Sun Chul Huh

摘要

This study aims to develop a highly sensitive buckypaper-based electrochemical biosensor utilizing CuO-decorated acid-treated multi-walled carbon nanotubes (CuO/a-MWCNTs) for glucose detection. Acid treatment introduced carboxyl groups on the MWCNT surface, facilitating uniform CuO nanoparticle deposition and enhancing electron transfer kinetics. The optimized biosensor, incorporating CuO/a-MWCNTs with a CuO loading of 0.05 mol%, exhibited a high sensitivity of 471.0 µA·mM−1·cm−2, approximately 3.6 times greater than that of MWCNT-only electrodes. It also demonstrated a wide linear detection range (0–10 mM) and a remarkably low limit of detection (LoD) of 0.39 mM. These findings suggest that CuO/a-MWCNT-based biosensors hold great potential for highly sensitive and efficient glucose monitoring.