高性能弯曲不敏感柔性压力传感器中亚100 Nm纳米光栅结构的增强渗透效应板牙。10/2025)

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Advanced Electronic Materials Pub Date : 2025-07-03 DOI:10.1002/aelm.70023

Jae-Soon Yang, Min-Ho Seo, Min-Seung Jo, Kwang-Wook Choi, Jae-Shin Lee, Myung-Kun Chung, Bon-Jae Koo, Jae-Young Yoo, Jun-Bo Yoon

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引用次数: 0

摘要

柔性压力传感器在文章号2400980中，Jae-Young Yoo， Jun-Bo Yoon及其同事开发了一种高性能柔性压力传感器，该传感器采用亚100 nm谷纳米光栅结构，以增强渗透效果，同时保持弯曲不灵敏度。该传感器可靠地检测细微的压力，如动脉脉冲，甚至在弯曲的表面上，使其成为可穿戴医疗保健和触觉传感应用的理想选择。这个盖子说明了传感器在灵敏地检测动脉脉冲的同时保持弯曲不敏感的能力，这表明它在未来足底压力测绘中的应用潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Enhanced Percolation Effect in Sub-100 Nm Nanograting Structure for High-Performance Bending Insensitive Flexible Pressure Sensor (Adv. Electron. Mater. 10/2025)

查看原文本刊更多论文

Enhanced Percolation Effect in Sub-100 Nm Nanograting Structure for High-Performance Bending Insensitive Flexible Pressure Sensor (Adv. Electron. Mater. 10/2025)

Flexible Pressure Sensors

In article number 2400980, Jae-Young Yoo, Jun-Bo Yoon, and co-workers develop a high-performance flexible pressure sensor using a sub-100 nm valley nanograting structure to enhance the percolation effect while maintaining bending insensitivity. This sensor reliably detects subtle pressures, such as arterial pulses, even on curved surfaces, making it ideal for wearable healthcare and tactile sensing applications. This cover illustrates the sensor's ability to maintain bending insensitivity while sensitively detecting arterial pulses, suggesting its potential for future applications in plantar pressure mapping.

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来源期刊

Advanced Electronic Materials NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

11.00

自引率

3.20%

发文量

433

期刊介绍： Advanced Electronic Materials is an interdisciplinary forum for peer-reviewed, high-quality, high-impact research in the fields of materials science, physics, and engineering of electronic and magnetic materials. It includes research on physics and physical properties of electronic and magnetic materials, spintronics, electronics, device physics and engineering, micro- and nano-electromechanical systems, and organic electronics, in addition to fundamental research.