首页 /研究 /Multistage Microstructured Ionic Skin for Real‐Time Vital Signs Monitoring and Human‐Machine Interaction
PERCEPTION

Multistage Microstructured Ionic Skin for Real‐Time Vital Signs Monitoring and Human‐Machine Interaction

Xueke Wang, Jinyu Zi, Yi Chen, Qiang Wu, Zhimin Xiang, Yong‐Qiang Tu, Peng Yang, Yanfen Wan

发表年份
2024
引用次数
17
访问权限
开放获取

摘要

Skin‐like electronics research aiming to mimic even surpass human‐like specific tactile cognition by operating perception‐to‐cognition‐to‐feedback of stimulus to build intelligent cognition systems for certain imperceptible or inappreciable signals was so attractive. Herein, we constructed an all‐in‐one tri‐modal pressure sensing wearable device to address the issue of power supply by integrating multistage microstructured ionic skin (MM i‐skin) and thermoelectric self‐power staffs, which exhibits high sensitivity simultaneously. The MM i‐skin with multi‐stage “interlocked” configurations achieved precise recognition of subtle signals, where the sensitivity reached up to 3.95 kPa −1 , as well as response time of 46 ms, cyclic stability (over 1500 cycles), a wide detection range of 0–200 kPa. Furthermore, we developed the thermoelectricity nanogenerator, piezoelectricity nanogenerator, and piezocapacitive sensing as an integrated tri‐modal pressure sensing, denoted as P‐iskin, T‐iskin, and C‐iskin, respectively. This multifunctional ionic skin enables real‐time monitoring of weak body signals, rehab guidance, and robotic motion recognition, demonstrating potential for Internet of things (IoT) applications involving the artificial intelligence‐motivated sapiential healthcare Internet (SHI) and widely distributed human‐machine interaction (HMI).

关键词

Vital signsComputer scienceReal-time computingBiomedical engineeringEngineeringMedicineSurgery

相关论文

查看 PERCEPTION 分类全部论文