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Ultra-conformal skin electrodes with synergistically enhanced conductivity for long-time and low-motion artifact epidermal electrophysiology

Yan Zhao, Song Zhang, Tianhao Yu, Yan Zhang, Ye Guo, Han Cui, Chengzhi He, Wenchao Jiang, Yu Zhai, Chunming Lu, Xiaodan Gu, Nan Liu

2021Nature Communications297 citationsDOIOpen Access PDF

Abstract

Accurate and imperceptible monitoring of electrophysiological signals is of primary importance for wearable healthcare. Stiff and bulky pregelled electrodes are now commonly used in clinical diagnosis, causing severe discomfort to users for long-time using as well as artifact signals in motion. Here, we report a ~100 nm ultra-thin dry epidermal electrode that is able to conformably adhere to skin and accurately measure electrophysiological signals. It showed low sheet resistance (~24 Ω/sq, 4142 S/cm), high transparency, and mechano-electrical stability. The enhanced optoelectronic performance was due to the synergistic effect between graphene and poly (3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS), which induced a high degree of molecular ordering on PEDOT and charge transfer on graphene by strong π-π interaction. Together with ultra-thin nature, this dry epidermal electrode is able to accurately monitor electrophysiological signals such as facial skin and brain activity with low-motion artifact, enabling human-machine interfacing and long-time mental/physical health monitoring.

Topics & Concepts

PEDOT:PSSArtifact (error)ElectrodeMaterials scienceGrapheneElectrophysiologyPolystyrene sulfonateOptoelectronicsInterfacingBiomedical engineeringNanotechnologyComputer scienceMedicineChemistryLayer (electronics)Artificial intelligenceInternal medicinePhysical chemistryComputer hardwareAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsNeuroscience and Neural Engineering
Ultra-conformal skin electrodes with synergistically enhanced conductivity for long-time and low-motion artifact epidermal electrophysiology | Litcius