Publications논문

Self-powered Carbon Nanotube Yarn for Acceleration Sensor Application
2020-06-11 09:58:56 조회수127
Bum-Joon Kim (a), Yongwoo Jang (a), Ji Hwan Moon (a), Ray H. Baughman (b), Seon Jeong Kim (a)* a) Center for Self-Powered Actuation and Department of Biomedical Engineering, Hanyang University b) The Alan G. MacDiarmid NanoTech Institute, The University of Texas at Dallas 원문 링크 : https://ieeexplore.ieee.org/abstract/document/9027130

Abstract

Accelerometers are indispensable for detecting accelerating forces in automotive electronic systems. Although several accelerometers have been developed, they are still unstable for vehicle dynamics applications in the low frequency range (0-20 Hz). Here, we report a novel type of accelerometer based on a coiled carbon nanotube (CNT) yarn as a self-powered and low frequency range-covered acceleration sensor. The proposed sensor is designed in a compact fiber-like structure for practical applications. Open circuit voltage (OCV) signals are consistently generated during the stretch-and-release process of the coiled CNT yarn by the applied sinusoidal accelerations, and the OCV changes increase linearly with increasing acceleration from 4.84 to 48.37 m/s2. Our accelerometer exhibits excellent dynamic sensing performance in the low frequency range compared with commercial accelerometers. In an application as a CNT yarn device configured with a mass load, the OCV change is linearly proportional to the applied acceleration. When our accelerometer is attached to a seatbelt in a vehicle, it generates OCV changes from the movement of the body mass underlying a certain acceleration change. Given its excellent sensing performance, the CNT yarn acceleration sensor could be further developed for practical applications such as seatbelts and car seats with fabric and textile. 

 
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