Stretchable Triboelectric–Photonic Smart Skin for Tactile and Gesture Sensing
Smart skin is expected to be stretchable and tactile for bionic robots as the medium with the ambient environment. Here, a stretchable triboelectric–photonic smart skin (STPS) is reported that enables multidimensional tactile and gesture sensing for a robotic hand. With a grating‐structured metal fi...
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Veröffentlicht in: | Advanced materials (Weinheim) 2018-04, Vol.30 (16), p.e1800066-n/a |
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Zusammenfassung: | Smart skin is expected to be stretchable and tactile for bionic robots as the medium with the ambient environment. Here, a stretchable triboelectric–photonic smart skin (STPS) is reported that enables multidimensional tactile and gesture sensing for a robotic hand. With a grating‐structured metal film as the bioinspired skin stripe, the STPS exhibits a tunable aggregation‐induced emission in a lateral tensile range of 0–160%. Moreover, the STPS can be used as a triboelectric nanogenerator for vertical pressure sensing with a maximum sensitivity of 34 mV Pa−1. The pressure sensing characteristics can remain stable in different stretching conditions, which demonstrates a synchronous and independent sensing property for external stimuli with great durability. By integrating on a robotic hand as a conformal covering, the STPS shows multidimensional mechanical sensing abilities for external touch and different gestures with joints bending. This work has first demonstrated a triboelectric–photonic coupled multifunctional sensing terminal, which may have great applications in human–machine interaction, soft robots, and artificial intelligence.
Smart skin is expected to be stretchable and tactile for bionic robots. By coupling tunable photoluminescence and a triboelectric nanogenerator, a stretchable triboelectric–photonic smart skin is reported that enables multidimensional tactile and gesture sensing for a robotic hand, which may have great applications in human–machine interaction, soft robots, and artificial intelligence. |
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ISSN: | 0935-9648 1521-4095 |
DOI: | 10.1002/adma.201800066 |