Wearable Triboelectric Strain-Insensitive Pressure Sensors Based on Hierarchical Superposition Patterns

Recently, wearable triboelectric sensors capable of self-powering, which can be widely used in artificial skin and robotics, have received much attention. Herein, we develop a stretchable triboelectric pressure sensor with a new pattern by superimposing two patterns using both polystyrene beads and UV-ozone treatment. This patterned structure works more sensitively to pressure than a general planar and one-kind patterned structure. The sensor is constructed by sandwiching styrene butadiene rubber (SBR) and poly(dimethylsiloxane) (PDMS). It demonstrates a high sensitivity of 0.078 kPa(-1) (0-20 kPa), a low detection limit (1.2 kPa), and pressure sensitivity maintained under 40% strain. The detection behavior of the strain-insensitive triboelectric sensor against pressure is very consistent with the simulation based on the theory. In applications, we successfully detect various human motions, not only small motions such as bending fingers but also large motions such as standing up and raising arms.

Automated summary

This study presents a new stretchable triboelectric pressure sensor with a special pattern structure, which is more sensitive to pressure detection than traditional structures, with high sensitivity and low detection limit. The sensor is strain-insensitive and maintains pressure sensitivity even under 40% strain, successfully applied in detecting various human motions.