Issue 45, 2023

Robust, self-adhesive and anti-bacterial silk-based LIG electrodes for electrophysiological monitoring

Abstract

Flexible wearable electrodes have been extensively used for obtaining electrophysiological signals towards smart health monitoring and disease diagnosis. Here, low-cost, and non-conductive silk fabric (SF) have been processed into highly conductive laser induced graphene (LIG) electrodes while maintaining the original structure of SF. A CO2-pulsed laser was utilized to produce LIG-SF with controlled sheet resistance and mechanical properties. Laser processing of SFs under optimized conditions yielded LIG-SF electrodes with a high degree of homogeneity on both, top and bottom layers. Silk fibroin/Ca2+ adhesive layers effectively promoted the adhesive, anti-bacterial properties and provided a conformal contact of LIG-SF electrodes with human skin. Compared with conventional Ag/AgCl electrodes, LIG-SF electrodes possesses a much lower contact impedance in contact with human skin enabling highly stable electrophysiological signals recording. The applicability of adhesive LIG-SF electrodes to acquire electrocardiogram (ECG) signals was investigated. ECG signals recordings of adhesive LIG-SF electrodes showed excellent performance compared to conventional Ag/AgCl electrodes at intense body movements while running at different speeds for up to 9 km over a duration of 24 h. Therefore, our proposed adhesive LIG-SF electrodes can be applied for long-term personalized healthcare monitoring and sports management applications.

Graphical abstract: Robust, self-adhesive and anti-bacterial silk-based LIG electrodes for electrophysiological monitoring

Supplementary files

Article information

Article type
Paper
Submitted
22 Aug 2023
Accepted
23 Oct 2023
First published
30 Oct 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 31704-31719

Robust, self-adhesive and anti-bacterial silk-based LIG electrodes for electrophysiological monitoring

M. K. M. Abd-Elbaki, T. M. Ragab, N. E. R. Ismael and A. S. G. Khalil, RSC Adv., 2023, 13, 31704 DOI: 10.1039/D3RA05730E

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