Enhanced performance in capacitive force sensors using carbon nanotube/polydimethylsiloxane nanocomposites with high dielectric properties

Authors
Jang, HyeyoungYoon, HyungsukKo, YoungpyoChoi, JaeyooLee, Sang-SooJeon, InsuKim, Jong-HoKim, Heesuk
Issue Date
2016-03
Publisher
ROYAL SOC CHEMISTRY
Citation
NANOSCALE, v.8, no.10, pp.5667 - 5675
Abstract
Force sensors have attracted tremendous attention owing to their applications in various fields such as touch screens, robots, smart scales, and wearable devices. The force sensors reported so far have been mainly focused on high sensitivity based on delicate microstructured materials, resulting in low reproducibility and high fabrication cost that are limitations for wide applications. As an alternative, we demonstrate a novel capacitive-type force sensor with enhanced performance owing to the increased dielectric properties of elastomers and simple sensor structure. We rationally design dielectric elastomers based on alkylamine modified-multi-walled carbon nanotube (MWCNT)/polydimethylsiloxane (PDMS) composites, which have a higher dielectric constant than pure PDMS. The alkylamine-MWCNTs show excellent dispersion in a PDMS matrix, thus leading to enhanced and reliable dielectric properties of the composites. A force sensor array fabricated with alkylamine-MWCNT/PDMS composites presents an enhanced response due to the higher dielectric constant of the composites than that of pure PDMS. This study is the first to report enhanced performance of capacitive force sensors by modulating the dielectric properties of elastomers. We believe that the disclosed strategy to improve the sensor performance by increasing the dielectric properties of elastomers has great potential in the development of capacitive force sensor arrays that respond to various input forces.
Keywords
STRAIN SENSORS; PRESSURE SENSOR; COMPOSITES; NANOTUBES; STRAIN SENSORS; PRESSURE SENSOR; COMPOSITES; NANOTUBES
ISSN
2040-3364
URI
https://pubs.kist.re.kr/handle/201004/124365
DOI
10.1039/c5nr07958f
Appears in Collections:
KIST Article > 2016
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