热感受器
软机器人
电子皮肤
纳米技术
机器人学
材料科学
生物医学工程
计算机科学
医学
感觉系统
人工智能
机器人
神经科学
生物
作者
João Neto,Radu Chirila,Abhishek Singh Dahiya,Adamos Christou,Dhayalan Shakthivel,Ravinder Dahiya
出处
期刊:Advanced Science
[Wiley]
日期:2022-07-25
卷期号:9 (27): e2201525-e2201525
被引量:90
标识
DOI:10.1002/advs.202201525
摘要
Abstract Electronic systems possessing skin‐like morphology and functionalities (electronic skins [e‐skins]) have attracted considerable attention in recent years to provide sensory or haptic feedback in growing areas such as robotics, prosthetics, and interactive systems. However, the main focus thus far has been on the distributed pressure or force sensors. Herein a thermoreceptive e‐skin with biological systems like functionality is presented. The soft, distributed, and highly sensitive miniaturized (≈700 µm 2 ) artificial thermoreceptors (ATRs) in the e‐skin are developed using an innovative fabrication route that involves dielectrophoretic assembly of oriented vanadium pentoxide nanowires at defined locations and high‐resolution electrohydrodynamic printing. Inspired from the skin morphology, the ATRs are embedded in a thermally insulating soft nanosilica/epoxy polymeric layer and yet they exhibit excellent thermal sensitivity (−1.1 ± 0.3% °C −1 ), fast response (≈1s), exceptional stability (negligible hysteresis for >5 h operation), and mechanical durability (up to 10 000 bending and twisting loading cycles). Finally, the developed e‐skin is integrated on the fingertip of a robotic hand and a biological system like reflex is demonstrated in response to temperature stimuli via localized learning at the hardware level.
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