LAUSR

In this work, a high-performance wearable sensor of excellent flexibility was fabricated by dip-coating Ti3C2Tx MXene material (M) on a polyester fiber (PET) substrate and depositing silver nanoparticles (Ag) by magnetron sputtering. The Ag/M/PET fiber sensor not only responds well to the stimuli of temperature, pressure/strain signals, but also exhibits high-temperature sensitivity (0 °C–10 °C: −3.4938% °C−1, 10 °C– 30 °C: −1.0436% °C $^{-1}$ ), relatively fast response and recovery time to pressure (130 ms), low-pressure detection limit (6.5 mg, 1 cm $^{2}$ ), and good cycling stability (1000 cycles). The proposed fiber sensor has the advantages of high sensitivity, simple structure, convenient fabrication, and excellent multimodal sensing capability, which makes it a valuable candidate for human motion detection and personal healthcare.