Abstract
Wearable piezoresistive sensors have great potential in motion monitoring, health detection, and virtual reality. However, such sensors have difficulty maintaining long-term and stable sensing performance in complicated conditions such as wetting, corrosion and without external power supply. Herein, we integrated a stable wearable piezoresistance sensor (SWPS) with sandwich-like laminated structure, which consists of a flexible superhydrophobic conductive material, a rigid superhydrophobic material, conductive coil and magnetic composite materials which is used to provide magnetic field. SWPS achieves simultaneously effective pressure sensing and self-power supply. Importantly, such sensor maintains outstanding superhydrophobicity even when exposed to mechanical or chemical damage, such as cyclic compression, impact and wetting erosion, ensuring the reliable and long-lasting sensing performance. Our design strategy could also guide the development of other wearable sensor materials that need to retain long-term sensing performance in harsh operating conditions.
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