Towards seamless conformable and comfortable wearable electronics: Polyimide-supported dry electrodes integrated in knitted fabrics

Wearable electronics contribute directly to advancing numerous biomedical devices in contract with the human body. These electronic devices have been transformed from rigid and bulky into soft and flexible. Conformable electronics is actively pursued in the literature to comply with the curvilinear...

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Published inSensors and actuators. A. Physical. Vol. 376; p. 115613
Main Authors Dadjou, Mahsa, Bakhtiyari, Simin, Jahanshahi, Amir, Bagherzadeh, Roohollah
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2024
Subjects
Comfortable sensor devices
Conformable devices
Polyimide-supported electrodes
Stretchable electronics
Textile integration
Wearable electronics
Textile integration
Polyimide-supported electrodes
Stretchable electronics
Wearable electronics
Comfortable sensor devices
Conformable devices
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Abstract Wearable electronics contribute directly to advancing numerous biomedical devices in contract with the human body. These electronic devices have been transformed from rigid and bulky into soft and flexible. Conformable electronics is actively pursued in the literature to comply with the curvilinear surface of the skin. To increase the adoption rate, seamless comfortable operation is necessary, which requires more focus on convenient materials such as textiles, compared to elastomer-based technologies. This study demonstrates mechanically reliable stretchable interconnects embedded within textile to achieve both conformability and comfort. Electromyography (EMG) signals provide invaluable information about body motion analysis, muscle nerve and fatigue disorders. Non-invasive surface EMG is the preferred method of measurement since it can be conducted with minimal risk to the subject. In this study, polyimide-supported dry electrodes are integrated in knitted fabrics using a special knit pattern to ensure achieving higher contact surface area with the human skin. The received EMG signals are benchmarked against standard wet electrodes in time and frequency domain, revealing comparable performance. The presented technology exhibits extremely high mechanical reliability, withstanding up to 10,000 cyclic elongations at 60 % strain. The integration strategy is sufficiently strong and durable, retaining its electrical properties after 20 standard washing cycles. The findings indicate that the presented technology holds significant promise towards real-world implementation of seamless, conformable, and comfortable wearable electronics. [Display omitted] •Seamless integration of dry electrodes into fabrics.•Conformable and Comfortable wearable electronics for biophysiological signals.•Excellent electrical and mechanical properties of knitted dry electrodes.•Long term mechanical and electrical reliability of the knitted dry electrodes.
AbstractList Wearable electronics contribute directly to advancing numerous biomedical devices in contract with the human body. These electronic devices have been transformed from rigid and bulky into soft and flexible. Conformable electronics is actively pursued in the literature to comply with the curvilinear surface of the skin. To increase the adoption rate, seamless comfortable operation is necessary, which requires more focus on convenient materials such as textiles, compared to elastomer-based technologies. This study demonstrates mechanically reliable stretchable interconnects embedded within textile to achieve both conformability and comfort. Electromyography (EMG) signals provide invaluable information about body motion analysis, muscle nerve and fatigue disorders. Non-invasive surface EMG is the preferred method of measurement since it can be conducted with minimal risk to the subject. In this study, polyimide-supported dry electrodes are integrated in knitted fabrics using a special knit pattern to ensure achieving higher contact surface area with the human skin. The received EMG signals are benchmarked against standard wet electrodes in time and frequency domain, revealing comparable performance. The presented technology exhibits extremely high mechanical reliability, withstanding up to 10,000 cyclic elongations at 60 % strain. The integration strategy is sufficiently strong and durable, retaining its electrical properties after 20 standard washing cycles. The findings indicate that the presented technology holds significant promise towards real-world implementation of seamless, conformable, and comfortable wearable electronics. [Display omitted] •Seamless integration of dry electrodes into fabrics.•Conformable and Comfortable wearable electronics for biophysiological signals.•Excellent electrical and mechanical properties of knitted dry electrodes.•Long term mechanical and electrical reliability of the knitted dry electrodes.
ArticleNumber 115613
Author Jahanshahi, Amir
Bagherzadeh, Roohollah
Bakhtiyari, Simin
Dadjou, Mahsa
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Keywords Textile integration
Polyimide-supported electrodes
Stretchable electronics
Wearable electronics
Comfortable sensor devices
Conformable devices
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Snippet Wearable electronics contribute directly to advancing numerous biomedical devices in contract with the human body. These electronic devices have been...
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SubjectTerms Comfortable sensor devices
Conformable devices
Polyimide-supported electrodes
Stretchable electronics
Textile integration
Wearable electronics
Title Towards seamless conformable and comfortable wearable electronics: Polyimide-supported dry electrodes integrated in knitted fabrics
URI https://dx.doi.org/10.1016/j.sna.2024.115613
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