Abstract
Recently, textile-based pressure sensors have gained considerable interest in the field of wearable electronics due to their wide range of applicability and good scalability. Despite recent progress, however, urgent challenges remain to develop a fully integrated textile sensor array with highly sensitive multi-sensing capability and low-power consumption. Here, we demonstrate a highly-sensitive capacitive ionotronic (CIT) pressure sensor array using high- k ion-gel (IG) film for implementation of textile-based electronic systems. With a composition and thickness optimized IG film, CIT pressure sensors with high sensitivity up to 308 nF kPa −1 and relatively good stability was successfully obtained. In addition, based on mechanical simulations using finite element method, it was found that the pressure-dependent contact-area variation between multifilament fiber electrodes and the IG film played the dominant role in capacitance change rather than the thickness change of the IG film. Furthermore, a 3 × 3 CIT pressure sensor system is implemented on a large-area textile substance with multi-point detection capability, demonstrating a textile-based pressure monitoring system integrated with a pressure variable multi-color light emitting diode array. A textile-integrated highly-sensitive capacitive ionotronic pressure sensor using high- k ion-gel film is demonstrated. The synergetic combination of multifilament fiber electrodes and ion-gel enabled a large pressure-dependent contact-area variation for high pressure sensitivity. A 3 × 3 pressure sensor array and a textile pressure monitoring circuit were demonstrated using the ionotronic pressure sensors. • A fully textile-integrated capacitive ionotronic pressure sensor array using high- k ion-gel film is demonstrated. • The multifilament fiber electrode structure allowed a large pressure-dependent contact-area variation for high sensitivity. • A 3 × 3 CIT pressure sensor array and a textile-based pressure monitoring circuit are demonstrated.
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