Lightweight, superelastic, and temperature-resistant rGO/polysulfoneamide-based nanofiber composite aerogel for wearable piezoresistive sensors

Abstract: With the rapid development of artificial intelligence, the study of flexible pressure sensors attracts the great attention of researchers. However, facing extreme application environments such as aerospace and national defense,...

“…In the case of GA-1, compressing at the same strain under −60 °C, the maximum strength does not show a significant decrease with prolonged insulation time. 171 The synergistic effect of sulfonyl groups and benzene ring double bonds in PSAN nanofibers allows the sensor to maintain nearly constant maximum compressive strength during a 12 hour insulation test at 200 °C. The retention rates of diameter, height, and mass are all above 95%.…”

Flexible resistive tactile pressure sensors

“…In the case of GA-1, compressing at the same strain under −60 °C, the maximum strength does not show a significant decrease with prolonged insulation time. 171 The synergistic effect of sulfonyl groups and benzene ring double bonds in PSAN nanofibers allows the sensor to maintain nearly constant maximum compressive strength during a 12 hour insulation test at 200 °C. The retention rates of diameter, height, and mass are all above 95%.…”

Flexible resistive tactile pressure sensors

Spatial confinement of Co1.67Te2 nanoparticles within porous carbon nanofibers enabling fast kinetics and stability for sodium dual-ion batteries