From sewing thread to sensor: Nylon® fiber strain and pressure sensors

From sewing thread to sensor: Nylon® fiber strain and pressure sensors

[Display omitted] •Devised a method of durably coating reduced graphene oxide (rGO) on intricate fibers of Nylon® fabric uniformly.•Carried out detailed morphological studies of fibers and fabrics using Scanning Electron Microscopy (SEM).•Carried out durability studies of the rGO coating on the Nylo...

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Veröffentlicht in:Sensors and actuators. B, Chemical Chemical, 2017-03, Vol.240, p.1083-1090
Hauptverfasser: Abdul Samad, Yarjan, Komatsu, Kento, Yamashita, Daiji, Li, Yuanqing, Zheng, Lianxi, Alhassan, Saeed M., Nakano, Yoshiaki, Liao, Kin
Format: Artikel
Sprache:eng
Schlagworte:
Bend radius
Coated fibers
Coating
E-textile
Fibers
Graphene oxide
Graphite
Position sensing
Pressure sensing
Pressure sensors
Sensitivity
Sensors
Sewing
Strain
Strain sensing
Studies
Tactile sensing
Tracking
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container_end_page 1090
container_issue
container_start_page 1083
container_title Sensors and actuators. B, Chemical
container_volume 240
creator Abdul Samad, Yarjan
Komatsu, Kento
Yamashita, Daiji
Li, Yuanqing
Zheng, Lianxi
Alhassan, Saeed M.
Nakano, Yoshiaki
Liao, Kin
description [Display omitted] •Devised a method of durably coating reduced graphene oxide (rGO) on intricate fibers of Nylon® fabric uniformly.•Carried out detailed morphological studies of fibers and fabrics using Scanning Electron Microscopy (SEM).•Carried out durability studies of the rGO coating on the Nylon® fibers by twisting the fibers in situ in SEM.•Studied the pressure/strain sensing capability of both rGO coated Nylon® fabrics and quarantined fibers.•Studied the capability of rGO-coated fibers to sense applied force and position simultaneously. Some of the most advanced laptop computers have their trackpads made to detect both force and position precisely. These trackpads are made of intricately designed force sensors, taptic engines and capacitive glass surfaces. In this study, we have modified simple Nylon® fabric which senses both force and position. A commercially available Nylon® fabric was coated with reduced graphene (rGO) in a layer by layer fashion such that the individual fibers of the fabric get wrapped by rGO and the fabric looks like dyed with grey color. The SEM images of the twisted individual rGO coated fibers show that the coating remains undamaged until a twist angle of about 1800°. An in situ applied pressure in compression, on the fabric, of about 2500kPa changes its resistance 8kΩ relative to its original resistance with a durability of up to 6000 cycles. Single rGO coated fibers quarantined and tested for their strain sensitivity show that an in situ bending radius of 1mm changes its resistance to 326±21kΩ relative to its original resistance. With the help of a read-out circuit it was also showed that quarantined rGO coated fibers arranged in a 2×2 grid format sense the position of the applied force.
doi_str_mv 10.1016/j.snb.2016.09.088
format Article
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1873-3077
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source Elsevier ScienceDirect Journals
subjects Bend radius
Coated fibers
Coating
E-textile
Fibers
Graphene oxide
Graphite
Position sensing
Pressure sensing
Pressure sensors
Sensitivity
Sensors
Sewing
Strain
Strain sensing
Studies
Tactile sensing
Tracking
title From sewing thread to sensor: Nylon® fiber strain and pressure sensors
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