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갈륨 미세입자 탄성 복합체 기반 고민감도와 광대역폭을 갖는 가변 강성 압력센서Adaptive Pressure Sensor with High Sensitivity and Large Bandwidth Based on Gallium Microdroplet-elastomer Composite

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Adaptive Pressure Sensor with High Sensitivity and Large Bandwidth Based on Gallium Microdroplet-elastomer Composite
Authors
이시목스티브 박변상혁심주용정재웅
Issue Date
Nov-2022
Publisher
한국센서학회
Keywords
Adaptive pressure sensor; Sensing enhancement; Gallium microdroplet; Variable stiffness
Citation
센서학회지, v.31, no.6, pp 423 - 427
Pages
5
Journal Title
센서학회지
Volume
31
Number
6
Start Page
423
End Page
427
URI
https://scholarworks.sookmyung.ac.kr/handle/2020.sw.sookmyung/152313
DOI
10.46670/JSST.2022.31.6.423
ISSN
1225-5475
2093-7563
Abstract
A pressure sensor that mimics the sensing ability of human skin has emerged as high-profile technology because it shows remarkable applications in numerous fields such as robotics, human health monitoring, and artificial prosthetics. Whereas recent pressure sensors have achieved high sensitivity similar to that of human skin, they still show limited detection bandwidth. Moreover, once these e-skin are fabricated, their sensitivity and stiffness are fixed; therefore, they can be used for only limited applications. Our study proposes a new adaptive pressure sensor built with uniform gallium microdroplet-elastomer composite. Based on the phase transition of gallium microdroplets, the proposed sensor undergoes mode transformation, enabling it to have a higher sensitivity and wider detection bandwidth compared with those of human skin. In addition, we succeeded in extending a single adaptive pressure sensor to sensor arrays based on its high uniformity, reproducibility, and large-scale manufacturability. Finally, we designed an adaptive e-skin with the sensor array and demonstrated its applications on health monitoring tasks including blood pulse and body weight measurements.
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