压阻效应
材料科学
可穿戴计算机
制作
可扩展性
纳米技术
压力传感器
灵敏度(控制系统)
纳米结构
可穿戴技术
电子皮肤
结构健康监测
计算机科学
光电子学
电子工程
嵌入式系统
机械工程
工程类
医学
替代医学
病理
数据库
复合材料
作者
Fengming Wang,Daojian Su,Ke Ma,Bolong Qin,Baijun Li,Junxian Li,Chi Zhang,Xin Yue,Zundi Huang,Weijia Yang,Shuangpeng Wang,Xin He
标识
DOI:10.1021/acsami.3c09464
摘要
The increased popularity of wearable electronic devices has led to a greater need for advanced sensors. However, fabricating pressure sensors that are flexible, highly sensitive, robust, and compatible with large-scale fabrication technology is challenging. This work investigates a piezoresistive sensor constructed from an MXene/MoS2 hierarchical nanostructure, which is obtained through an easy and inexpensive fabrication process. The sensor exhibits a high sensitivity of 0.42 kPa-1 (0-1.5 kPa), rapid response (∼36 ms), and remarkable mechanical durability (∼10,000 cycles at 13 kPa). The sensor has been demonstrated to be successful in detecting human motion, speech recognition, and physiological signals, particularly in analyzing human pulse. These data can be used to alert and identify irregularities in human health. Additionally, the sensing units are able to construct sensor arrays of various sizes and configurations, enabling pressure distribution imaging in a variety of application scenarios. This research proposes a cost-effective and scalable approach to fabricating piezoresistive sensors and sensor arrays, which can be utilized for monitoring human health and for use in human-machine interfaces.
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