使用可编程互锁纳米纤维的可穿戴皮肤传感器

K. Suh, N. Jeon, Changhyun Pang
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引用次数: 4

摘要

我们提出了一种高灵敏度、柔性、多路应变传感器,该传感器利用高纵横比pt涂层聚合物纳米纤维之间的单活性纳米级机械联锁层。在聚二甲基硅氧烷(PDMS)薄层上支撑的夹层组装、相互连接的纳米纤维显示出一种特定的应变计(GF)因子,用于多重传感,如压力、剪切力和扭转,通过电阻变化作为施加压缩应变的函数(≤5%)来测量。该装置用于监测微液滴在超疏水表面上的连续运动和不同条件下心跳的物理力。为了提高对人体细腻皮肤的适应性,研制了体外诊断设备用皮肤贴。
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Wearable skin sensor using programmable interlocking of nanofibers
We presents a highly sensitive, flexible, multiplex strain gauge sensor by utilizing single active layer of nanoscale mechanical interlocking between high aspect-ratio Pt-coated polymeric nanofibers. The sandwich-assembled, interconnected nanofibers supported on thin polydimethylsiloxane (PDMS) layers displayed a specific strain gauge (GF) factors for multiplex sensing such as pressure, shear force, and torsion, measured from the change of electrical resistance as a function of applied compressive strain (≤5%). The assembled device was used to monitor continuous kinetic motion of a bouncing micro-droplet on a superhydrophobic surface and physical force of a heartbeat under different conditions. In order to enhance adaptability on exquisite human-skin, skin adhesive patches for in vitro diagnostic device are developed.
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