Skin‐Inspired in‐Sensor Encoding of Strain Vector Using Tunable Quantum Geometry

Abstract: Human skin provides crucial tactile feedback, allowing to skillfully perceive various objects by sensing and encoding complex deformations through multiple parameters in each tactile receptor. However, replicating this high‐dimensional tactile perception with conventional materials' electronic properties remains a daunting challenge. Here, a skin‐inspired method is presented to encode strain vectors directly within a sensor. This is achieved by leveraging the strain‐tunable quantum properties of electronic ban… Show more