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Polymeric Conductive Adhesive‐Based Ultrathin Epidermal Electrodes for Long‐Term Monitoring of Electrophysiological Signals

Joo Hwan Shin, Ji Yeong Choi, Keonuk June, Hyesu Choi, Tae‐il Kim

2024Advanced Materials94 citationsDOIOpen Access PDF

Abstract

Electrophysiology, exploring vital electrical phenomena in living organisms, anticipates broader integration into daily life through wearable devices and epidermal electrodes. However, addressing the challenges of the electrode durability and motion artifacts is essential to enable continuous and long-term biopotential signal monitoring, presenting a hurdle for its seamless implementation in daily life. To address these challenges, an ultrathin polymeric conductive adhesive, poly(3,4-ethylenedioxythiophene): poly(styrenesulfonate)/polyvinyl alcohol/d-sorbitol (PPd) electrode with enhanced adhesion, stretchability, and skin conformability, is presented. The skin conformability and stability of electrodes is designed by theoretical criteria obtained by mechanical analysis. Thus, impedance stability is obtained over 1-week of daily life, and the PPd electrode addresses the challenges related to durability during prolonged usage. Proving stability in electromyography (EMG) signals during high-intensity exercise, the wireless PPd measurement system exhibits high signal-to-noise ratio (SNR) signals even in situations involving significant and repetitive skin deformation. Throughout continuous 1 week-long electrocardiogram (ECG) monitoring in daily life, the system consistently preserves signal quality, underscoring the heightened durability and applicability of the PPd measurement system.

Topics & Concepts

DurabilityMaterials scienceElectrodeElectrical conductorSIGNAL (programming language)AdhesiveBiomedical engineeringWearable computerNoise (video)Computer scienceOptoelectronicsComposite materialLayer (electronics)MedicineEmbedded systemArtificial intelligenceProgramming languageChemistryImage (mathematics)Physical chemistryAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsMuscle activation and electromyography studies
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