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Development of a Highly Sensitive Wearable Tactile Sensor on Fabric by Using Conductive Inks Based on Electrical Contact Resistance (ECR) Change Mechanism
Macromolecular Materials and Engineering ( IF 4.2 ) Pub Date : 2021-08-17 , DOI: 10.1002/mame.202170026 Wei‐Lin Chen , Rajat Subhra Karmakar , Ying‐Chih Liao , Yen‐Wen Lu
Macromolecular Materials and Engineering ( IF 4.2 ) Pub Date : 2021-08-17 , DOI: 10.1002/mame.202170026 Wei‐Lin Chen , Rajat Subhra Karmakar , Ying‐Chih Liao , Yen‐Wen Lu
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Front Cover: In article number 2100130 by Yen-Wen Lu and co-workers, a fabric tactile sensor, based on the fact that contact resistance between two surfaces changes when pressure is applied, is developed by using a screenprinting technique for subtle pressure sensing (<10 kPa) at high sensitivity. Wrist pulse measurements and spatial pressure mapping using the sensors with wireless modules are demonstrated for wearable health monitoring and internet-of-things applications.
中文翻译:
基于电接触电阻 (ECR) 变化机制的导电油墨在织物上开发高灵敏度可穿戴触觉传感器
封面:在Yen-Wen Lu和同事的文章编号2100130中,基于施加压力时两个表面之间的接触电阻发生变化的事实,通过使用丝网印刷技术开发了一种织物触觉传感器,用于微妙的压力传感( <10 kPa) 高灵敏度。使用带有无线模块的传感器进行手腕脉搏测量和空间压力映射,用于可穿戴健康监测和物联网应用。
更新日期:2021-08-17
中文翻译:
基于电接触电阻 (ECR) 变化机制的导电油墨在织物上开发高灵敏度可穿戴触觉传感器
封面:在Yen-Wen Lu和同事的文章编号2100130中,基于施加压力时两个表面之间的接触电阻发生变化的事实,通过使用丝网印刷技术开发了一种织物触觉传感器,用于微妙的压力传感( <10 kPa) 高灵敏度。使用带有无线模块的传感器进行手腕脉搏测量和空间压力映射,用于可穿戴健康监测和物联网应用。
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