Bioinspired, Omnidirectional, and Hypersensitive Flexible Strain Sensors

材料科学 振动 声学 应变计 计算机科学 纳米技术 机械工程 工程类 复合材料 物理
作者
Linpeng Liu,Shichao Niu,Junqiu Zhang,Zhengzhi Mu,Jing Li,Bo Li,Xiancun Meng,Changchao Zhang,Yueqiao Wang,Tao Hou,Zhiwu Han,Shu Yang,Luquan Ren
出处
期刊:Advanced Materials [Wiley]
卷期号:34 (17): e2200823-e2200823 被引量:239
标识
DOI:10.1002/adma.202200823
摘要

Sensors are widely used in various fields, among which flexible strain sensors that can sense minuscule mechanical signals and are easy to adapt to many irregular surfaces are attractive for structure health monitoring, early detection, and failure prevention in humans, machines, or buildings. In practical applications, subtle and abnormal vibrations generated from any direction are highly desired to detect and even orientate their directions initially to eliminate potential hazards. However, it is challenging for flexible strain sensors to achieve hypersensitivity and omnidirectionality simultaneously due to the restrictions of many materials with anisotropic mechanical/electrical properties and some micro/nanostructures they employed. Herein, it is revealed that the vision-degraded scorpion detects subtle vibrations spatially and omnidirectionally using a slit sensillum with fan-shaped grooves. A bioinspired flexible strain sensor consisting of curved microgrooves arranged around a central circle is devised, exhibiting an unprecedented gauge factor of over 18 000 and stability over 7000 cycles. It can sense and recognize vibrations of diverse input waveforms at different locations, bouncing behaviors of a free-falling bead, and human wrist pulses regardless of sensor installation angles. The geometric designs can be translated to other material systems for potential applications including human health monitoring and engineering failure detection.
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