仿生微结构启发的双模柔性传感器具有光热效应,可用于超灵敏温度和应变监测

Xiaohui Guo, Yongzheng Niu, Zhihao Yin, Di Wang, Long Liu, Yongming Tang, Xianghui Li, Yifang Zhang, Yu Li, Tianxu Zhang, Xiaowen Zhu, Yiman Xu, Ziwen Zhang, Siwen Ding, Dandan Wang, Bing Yang, Zhihong Mai, Weiqiang Hong, Wenrui Xu, Qi Hong, Yunong Zhao, Feng Yan, Ming Wang, Guozhong Xing
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引用次数: 0

摘要

柔性双模传感器在人类与环境的信息交流中发挥着举足轻重的作用。然而,要实现既具有柔韧性和伸展性,又能准确量化温度等刺激信号的双模传感,仍然是一项重大挑战。本文介绍了一种新型柔性双模应变/温度传感器(DMSTS),它采用了石墨粉(GR)/聚苯胺(PANI)/硅橡胶复合材料,灵感来自蜈蚣脚的仿生微结构。DMSTS 的应变检测范围极广(≈177%),检测限低(0.5% 应变)。在温度感应方面,DMSTS 在 25-90 °C 范围内具有正温度系数效应,在 75-90 °C 范围内具有 10.3 的超高灵敏度。利用 GR 和 PANI 的光热特性,DMSTS 在人体运动检测、红外成像和光热效应方面的应用前景十分广阔。当集成到智能传感系统中时,它可以实现动态非接触式温度测量、人体微表情检测和运动关节监测。此外,DMSTS 还采用了带有变色油墨的柔性热致变色薄膜,将温度检测转变为视觉直观操作。DMSTS 具有多功能双模传感功能,在可穿戴电子设备和医疗保健领域具有巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Bionic Microstructure-Inspired Dual-Mode Flexible Sensor with Photothermal Effect for Ultrasensitive Temperature and Strain Monitoring
Flexible dual-mode sensors play a pivotal role in information exchange between humans and the environment. However, achieving dual-mode sensing encompassing both flexibility and stretchability, while accurately quantifying stimulus signals such as temperature, remains a significant challenge. This paper presents a novel flexible dual-mode strain/temperature sensor (DMSTS) that utilizes graphite powder (GR)/polyaniline (PANI)/silicone rubber composites, inspired by the bionic microstructure of a centipede's foot. The DMSTS exhibits an exceptional strain detection range (≈177%), and a low limit of detection (0.5% strain). Regarding temperature sensing, the DMSTS demonstrates a positive temperature coefficient effect within the range of 25–90 °C, with an ultrahigh sensitivity of 10.3 within the 75–90 °C range. Leveraging the photothermal characteristics of GR and PANI, the DMSTS holds significant promise for applications in human motion detection, infrared imaging, and photothermal effects. When integrated into an intelligent sensing system, it enables dynamic noncontact temperature measurement, human micro-expression detection, and motion joint monitoring. Additionally, by incorporating a flexible thermochromic film with color-changing ink, the DMSTS transforms temperature detection into a visually intuitive operation. With its versatile dual-mode sensing capabilities, the DMSTS exhibits substantial potential in the fields of wearable electronics and healthcare.
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