材料科学
导电体
复合材料
制作
磁致伸缩
电导率
拉伤
弯曲
磁性
光电子学
条状物
电阻率和电导率
超顺磁性
环氧树脂
电极
铜
涡流
磁场
作者
Miaoning Ren,Qiushuo Wu,Zhen Yang,Yang Qin,Xian Huang
标识
DOI:10.1021/acsaelm.6c00179
摘要
Conventional strain sensors are single function and struggle to meet the demands of applications in dynamic, complex environments. This paper presents the design, fabrication, and application of a triaxial flexible strain sensor based on magnetized neodymium iron boron microparticles with silver nanoshells (NdFeB@Ag) embedded in PDMS. Magnetized NdFeB@Ag microparticles with strong magnetism and high conductivity self-assemble to form conductive networks, facilitating efficient and scalable fabrication via stencil printing. A parylene encapsulation layer ensures long-term signal stability by mitigating moisture and oxidation effects, reducing the resistance drift in unmagnetized NdFeB@Ag/PDMS composites to just 7.7% over 12 h. The resulting strain sensor demonstrates excellent multifunctionality, with the ability to detect strain within the range of 0–1% in three orthogonal directions, monitor bending angles from 0° to 90°, and respond to temperature changes within the range of 25–45 °C due to its positive temperature coefficient. This research based on NdFeB@Ag magnetic conductive microparticles presents a convenient approach to construct multifunctional strain sensors, leading to a prevalence of low-cost devices in soft robotics, wearable electronics, and intelligent home systems.
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