一种可拉伸的全纳米纤维离子电子压力传感器

Soft science Pub Date : 2023-10-07 DOI:10.20517/ss.2023.24
Yigen Wu, Shuai Dong, Xiaojuan Li, Liguo Wen, Hongwei Shen, Mengjiao Li, Xin Liu, Yang Zhang, Guolong Zeng, Jianyi Zheng, Dezhi Wu
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引用次数: 0

摘要

具有高拉伸性、高灵敏度、高稳定性的柔性压力传感器在智能软机器人、人机交互、健康监测等领域的潜在应用无疑是迫切需要的。然而,目前大多数柔性压力传感器由于其多层结构,不能承受大的变形,在频繁的操作中容易出现性能下降甚至失效。在这里,我们提出了一种可拉伸的全纳米纤维离子电子压力传感器,该传感器由用作介电层的离子纳米纤维膜和用作电极的液态金属组成。该传感器在0-300 kPa的宽范围内具有1.08 kPa-1的高灵敏度,响应弛缓时间约为18/22 ms,稳定性好。高灵敏度来自于离子膜/电极界面形成的双电层,而高拉伸性和稳定性来自于原位封装的全纳米纤维结构。作为概念验证,将传感器阵列原型集成到软气动夹持器中,展示了其在抓取过程中的压力感知和物体识别能力。因此,该方案为制造具有高拉伸性、灵敏度和稳定性的优异性能的可拉伸压力传感器提供了另一种极好的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A stretchable all-nanofiber iontronic pressure sensor
Flexible pressure sensors with high stretchability, sensitivity, and stability are undoubtedly urgently required for potential applications in intelligent soft robots, human-machine interaction, health monitoring, and other fields. However, most current flexible pressure sensors are unable to endure large deformation and are prone to performance degradation or even failure during frequent operation due to their multilayered structures. Here, we propose a stretchable all-nanofiber iontronic pressure sensor that is composed of ionic nanofiber membranes used as dielectric layers and liquid metal used as electrodes. This sensor exhibits a high sensitivity of 1.08 kPa-1 over a wide range of 0-300 kPa, with a fast response-relaxation time of about 18/22 ms and excellent stability. The high sensitivity comes from the electric double layer formed at the ionic film/electrode interface, while high stretchability and stability are enabled by in-situ encapsulated all-nanofiber structures. As a proof of concept, a prototype sensor array is integrated into a soft pneumatic gripper, demonstrating its capability of pressure perception and object recognition during the grasping process. Thus, the scheme provides another excellent strategy to fabricate stretchable pressure sensors with superb performance in terms of high stretchability, sensitivity, and stability.
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CiteScore
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