Flexible electronic brush: Real-time multimodal sensing powered by reservoir computing through whisker dynamics

MXene-Based High-Performance Soft Pressure Sensor Using Gel-Deep Eutectic Solvent Composite

MXene, a layered nanocarbon material, exhibits excellent conductivity and solubility. Its high sensitivity also makes it useful for soft pressure sensors. However, the compatibility between sensitivity and fast responses in resistance-change sensors remains a major issue. This study developed an MXene-based high-performance soft pressure sensor using a gel-deep eutectic solvent composite. The composite conductive material exhibited excellent solubility and printability in soft device fabrication. The aim of this work was to produce a high-quality soft pressure sensor that exhibited quick responses over a wide sensitivity range for detecting applied pressure. The sensors achieved high performance in terms of a high-speed response (40 ms) and good sensitivity (-0.0109 kPa-1). These results represent an advance in intelligent wearable sensing systems by combining materials science and electronic devices.