数码产品
压阻效应
导电体
可伸缩电子设备
可穿戴计算机
计算机科学
可穿戴技术
加速度计
电子系统
无线
柔性电子器件
材料科学
电容感应
电子元件
嵌入式系统
试验台
机器人学
纳米技术
微电子机械系统
Lift(数据挖掘)
移动设备
智能系统
机器人
蓝牙
电气工程
机械工程
可扩展性
压力传感器
电阻式触摸屏
系统体系结构
工程类
作者
Wenqiang Wang,Zebang Luo,Xingge Yu,Xiaojia Yin,Li Xiang,A. Pan
出处
期刊:Nano-micro Letters
[Springer Science+Business Media]
日期:2026-01-03
卷期号:18 (1): 128-128
被引量:3
标识
DOI:10.1007/s40820-025-01974-z
摘要
Abstract Permeable electronics promise improved physiological comfort, but remain constrained by limited functional integration and poor mechanical robustness. Here, we report a three-dimensional (3D) permeable electronic system that overcomes these challenges by combining electrospun SEBS nanofiber mats, high-resolution liquid metal conductors patterned via thermal imprinting (50 μm), and a strain isolators (SIL) that protects vertical interconnects (VIAs) from stress concentration. This architecture achieves ultrahigh air permeability (> 5.09 mL cm −2 min −1 ), exceptional stretchability (750% fracture strain), and reliable conductivity maintained through more than 32,500 strain cycles. Leveraging these advances, we have integrated multilayer circuits, strain sensors, and a three-axis accelerometer to achieve a fully integrated, stretchable, permeable wireless real-time gesture recognition glove. The system enables accurate sign language interpretation (98%) and seamless robotic hand control, demonstrating its potential for assistive technologies. By uniting comfort, durability, and high-density integration, this work establishes a versatile platform for next-generation wearable electronics and interactive human–robot interfaces.
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