摩擦电效应
可穿戴技术
数码产品
压力传感器
计算机科学
可穿戴计算机
灵敏度(控制系统)
电子皮肤
基质(水族馆)
电子工程
压力(语言学)
柔性电子器件
结构健康监测
功率(物理)
构造(python库)
智能传感器
工作(物理)
材料科学
电气工程
可伸缩电子设备
电力电子
仿生学
计算机硬件
响应时间
足迹
工程类
作者
Tao Liu,Rongrong Liang,Yaping Zeng,Huanjie He,Kang Yu,Mingchao Chi,Junzhi Wang,Qiguan Luo,Lijun Wang,Dengjun Lu,Shuangxi Nie
出处
期刊:Nano Letters
[American Chemical Society]
日期:2026-01-09
卷期号:26 (2): 894-901
被引量:2
标识
DOI:10.1021/acs.nanolett.5c05773
摘要
Sensors with multidimensional pressure sensing capabilities have attracted extensive interest for applications in wearable electronics and human-computer interaction. However, conventional film-based materials struggle to achieve directional stress perception and exhibit limited sensitivity. Inspired by origami, this work integrates self-folding with composite loading to construct programmable 3D origami sensors. The design enables flexible assembly of multichannel sensing matrices, converting single-point signals into multidimensional responses that simultaneously acquire stress intensity and directional information. Coupled with deep learning algorithms, the origami sensor achieves a recognition accuracy of 97.8%. Furthermore, structural design augments the sensor's responsive performance, with a sensitivity approximately 130 times higher than that of the substrate material, while its output power density rivals that of various advanced sensors. This study overcomes the inherent limitations of traditional films in directional stress sensing and holds profound significance for the advancement of wearable electronics and intelligent robotics.
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