串扰
导电体
膜
材料科学
高分辨率
纳米技术
光电子学
化学
光学
物理
复合材料
遥感
地质学
生物化学
作者
Haixuan Luo,Xiaoliang Chen,Sheng Li,Jinbin Xu,Xiangming Li,Hongmiao Tian,Chunhui Wang,Bo Li,Manman Zhang,Bai Sun,Juan He,Jinyou Shao
标识
DOI:10.1002/advs.202403645
摘要
Abstract High spatial‐resolution detection is essential for biomedical applications and human‐machine interaction. However, as the sensor array density increases, the miniaturization will lead to interference between adjacent units and deterioration in sensing performance. Here, inspired by the cochlea's sensing structure, a high‐density flexible pressure sensor array featuring with suspended sensing membrane with sensitivity‐enhanced customized channels is presented for crosstalk‐free and high‐resolution detection. By imitating the basilar membrane attached to spiral ligaments, a sensing membrane is fixed onto a high‐stiffness substrate with cavities, forming a stable braced isolation to provide an excellent crosstalk‐free capability (crosstalk coefficient: 47.24 dB) with high‐density integration (100 units within 1 cm 2 ). Similar to the opening of ion channels in hair cells, the wedge‐type expansion of the embedded cracks introduced by stress concentration structures enables a high sensitivity (0.19 kPa −1 ) and a large measuring range (400 kPa). Finally, it demonstrates promising applications in distributed displays and the condition monitoring of medical‐surgical intubation.
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