Nanofiber web textile dry electrodes for long-term biopotential recording

Tong In Oh, Sun Yoon, Tae Eui Kim, Hun Wi, Kap Jin Kim, Eung Je Woo, Rosalind J. Sadleir

Research output: Contribution to journalArticle

55 Scopus citations

Abstract

Electrode properties are key to the quality of measured biopotential signals. Ubiquitous health care systems require long-term monitoring of biopotential signals from normal volunteers and patients in home or hospital environments. In these settings it is appropriate to use dry textile electrode networks for monitoring purposes, rather than the gel or saline-sponge skin interfaces used with Ag/AgCl electrodes. In this study, we report performance test results of two different electrospun conductive nanofiber webs, and three metal plated fabrics. We evaluated contact impedance, step response, noise and signal fidelity performance indices for all five dry electrodes, and compared them to those of conventional Ag/AgCl electrodes. Overall, we found nanofiber web electrodes matched Ag/AgCl electrode performance more closely than metal plated fabric electrodes, with the contact resistance and capacitance of Ag plated PVDF nanofiber web electrodes being most similar to Ag/AgCl over the 10 Hz to 500 kHz frequency range. We also observed that step responses of all three metal-plated fabrics were poorer than those for nanofiber web electrodes and Ag/AgCl. Further, noise standard deviation and noise power spectral densities were generally lower in nanofiber web electrodes than metal plated fabrics; and waveform fidelity of ECG-like traces recorded from nanofiber web electrodes was higher than for metal plated fabrics. We recommend textile nanofiber web electrodes in applications where flexibility, comfort and durability are required in addition to good electrical characteristics.

Original languageEnglish (US)
Article number6237554
Pages (from-to)204-211
Number of pages8
JournalIEEE transactions on biomedical circuits and systems
Volume7
Issue number2
DOIs
StatePublished - Jan 1 2013
Externally publishedYes

Keywords

  • Biomedical electrodes
  • contact impedance
  • nanostructures
  • textile electrodes

ASJC Scopus subject areas

  • Biomedical Engineering
  • Electrical and Electronic Engineering

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