Fully paper-integrated hydrophobic and air permeable piezoresistive sensors for high-humidity and underwater wearable motion monitoring

IF 12.3 1区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

npj Flexible Electronics Pub Date : 2023-03-11 DOI:10.1038/s41528-023-00244-5

Yuewen Wei, Xuewen Shi, Zhuoqi Yao, Jiacai Zhi, Lixuan Hu, Ren Yan, Chuanqian Shi, Hai-Dong Yu, Wei Huang

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引用次数: 7

Abstract

Paper-based electronics have attracted much attention due to their softness, degradability, and low cost. However, paper-based sensors are difficult to apply to high-humidity environments or even underwater. Here, we report a fully paper-integrated piezoresistive sensing system that exhibits flexibility, waterproofing, air permeability, and biocompatibility. This system consists of hydrophobic paper as the substrate and encapsulation layer, conductive paper with a double ‘zig-zag’ and dotted surface structure as the sensing layer, and silver paste films as the interconnects. The structural design of the sensing layer helps to increase the contact area in adjacent layers under pressure and further improves the pressure sensitivity. The piezoresistive system can be worn on human skin in the ambient environment, wet environment, and water for real-time monitoring of physiological signals with air permeability and waterproofing due to its hydrophobic fiber structure. Such a device provides a reliable, economical, and eco-friendly solution to wearable technologies.

Abstract Image

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全纸集成疏水和透气压阻传感器，用于高湿度和水下可穿戴运动监测

纸基电子器件因其柔软、可降解和低成本而备受关注。然而，纸基传感器很难应用于高湿度环境甚至水下环境。在此，我们报告了一种完全集成在纸上的压阻传感系统，它具有柔韧性、防水性、透气性和生物兼容性。该系统由疏水性纸张作为基底和封装层，具有双 "之 "字形和点状表面结构的导电纸张作为传感层，银浆薄膜作为互连层。传感层的结构设计有助于增加压力下相邻层的接触面积，进一步提高压力灵敏度。该压阻系统可佩戴在人体皮肤上，在环境、潮湿环境和水中实时监测生理信号，其疏水纤维结构具有透气性和防水性。这种装置为可穿戴技术提供了可靠、经济和环保的解决方案。

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来源期刊

npj Flexible Electronics Multiple-

CiteScore

17.10

自引率

4.80%

发文量

审稿时长

6 weeks

期刊介绍： npj Flexible Electronics is an online-only and open access journal, which publishes high-quality papers related to flexible electronic systems, including plastic electronics and emerging materials, new device design and fabrication technologies, and applications.

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