Exploring textile-based electrode materials for electromyography smart garments

Introduction: In recent years, electromyography (EMG) has been increasingly studied for wearable applications. Conventional gel electrodes for electrophysiological recordings have limited use in everyday applications such as prosthetic control or muscular therapy at home. This study investigates the efficacy and feasibility of dry-contact electrode materials employed in smart textiles for EMG recordings. Methods: Dry-contact electrode materials were selected and implemented on textile substrates. Using these electrodes, EMG was recorded from the forearm of able-bodied subjects. 25% and 50% isometric maximum voluntary contractions were captured. A comparative investigation was performed against gel electrodes, assessing the effect of material properties on signal fidelity and strength compared. Results: When isolating for electrode surface area and pressure, 31 of the 40 materials demonstrated strong positive correlations in their mean PSD with gel electrodes (r > 95, p < 0.001). The inclusion of ionic liquids in the material composition, and using raised or flat electrodes, did not demonstrate a significant effect in signal quality. Conclusions: For EMG dry-contact electrodes, comparing the performance against gel electrodes for the application with the selected material is important. Other factors recommended to be studied are electrodes' durability and long-term stability.

Automated summary

This study investigates the efficacy and feasibility of dry-contact electrode materials employed in smart textiles for electromyography (EMG) recordings. Results show that most materials have a strong positive correlation with gel electrodes in terms of mean power spectral density (PSD), and the inclusion of ionic liquids or the use of raised or flat electrodes does not significantly affect signal quality. Durability and long-term stability of the electrodes are recommended to be studied in future research.