DocumentCode
1292358
Title
Deformable Carbon Nanotube-Contact Pads for Inertial Microswitch to Extend Contact Time
Author
Lee, Jae-Ik ; Song, Youngsup ; Jung, Hakkyun ; Choi, Jungwook ; Eun, Youngkee ; Kim, Jongbaeg
Author_Institution
Sch. of Mech. Eng., Yonsei Univ., Seoul, South Korea
Volume
59
Issue
12
fYear
2012
Firstpage
4914
Lastpage
4920
Abstract
We have demonstrated a batch-fabricated inertial microswitch with extended contact time using carbon nanotube (CNT)-contact pads. Self-assembled and aligned CNT bundles, as deformable electromechanical contact pads are selectively synthesized on fully fabricated single crystal silicon microstructures. Outstanding mechanical flexibility and resilience, as well as electrical conductivity of CNTs, make them suitable as an electromechanical contact material. It is experimentally verified that the elastic deformation of CNTs dramatically enhances the contact time of the inertial microswitch from 7.5 μs to 114 μs. Due to the prolonged contact time, the presented inertial microswitch provides reliable and easy detection of threshold acceleration, which is crucial in diverse commercial applications such as airbag restraint systems in vehicles or geriatric healthcare systems.
Keywords
carbon nanotubes; crystal microstructure; elastic deformation; electrical conductivity; electrical contacts; microswitches; self-assembly; airbag restraint system; aligned CNT bundles; batch-fabricated inertial microswitch; contact time; deformable carbon nanotube-contact pad; deformable electromechanical contact pad; elastic deformation; electrical conductivity; electromechanical contact material; fabricated single crystal silicon microstructure; geriatric healthcare system; mechanical flexibility; mechanical resilience; self-assembled CNT bundles; threshold acceleration; time 7.5 mus to 114 mus; vehicle; Acceleration; Actuators; Carbon nanotubes; Electrodes; Microelectromechanical systems; Switches; Time measurement; Carbon nanotube (CNT); deformable contact pad; extended contact time; inertial microswitch;
fLanguage
English
Journal_Title
Industrial Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0278-0046
Type
jour
DOI
10.1109/TIE.2011.2163918
Filename
5977025
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