An all dispenser printed electrode structure on textile for wearable healthcare
An all dispenser printed electrode structure on textile for wearable healthcare
This paper presents a dispenser printed electrode array on polyester/cotton fabric. The fabrication details needed to achieve the array, including the materials and printer set-up, are reported. The array consists of ten electrode elements for functional electrical stimulation (FES), including nine active electrodes and one common return electrode. The minimum gap between conductive tracks of 1 mm required for the design was achieved. The fabrication method can be used to tailor the electrode array to fit a wide variety of healthcare applications and an individual’s requirements for personalized healthcare.
E-textile, dispenser printing, fabrication process, wearable electrode
Liu, Meijing
5aaf1609-e69d-4fe0-8dcf-9fe53a0fa6d7
Ahmed, Zeeshan
4f45182b-d376-48be-840d-6d15fef75ff1
Grabham, Neil
00695728-6280-4d06-a943-29142f2547c9
Beeby, Stephen
ba565001-2812-4300-89f1-fe5a437ecb0d
Tudor, John
46eea408-2246-4aa0-8b44-86169ed601ff
Yang, Kai
f1c9b81d-e821-47eb-a69e-b3bc419de9c7
29 April 2022
Liu, Meijing
5aaf1609-e69d-4fe0-8dcf-9fe53a0fa6d7
Ahmed, Zeeshan
4f45182b-d376-48be-840d-6d15fef75ff1
Grabham, Neil
00695728-6280-4d06-a943-29142f2547c9
Beeby, Stephen
ba565001-2812-4300-89f1-fe5a437ecb0d
Tudor, John
46eea408-2246-4aa0-8b44-86169ed601ff
Yang, Kai
f1c9b81d-e821-47eb-a69e-b3bc419de9c7
Liu, Meijing, Ahmed, Zeeshan, Grabham, Neil, Beeby, Stephen, Tudor, John and Yang, Kai
(2022)
An all dispenser printed electrode structure on textile for wearable healthcare.
Engineering Proceedings, 15 (1).
(doi:10.3390/engproc2022015016).
Abstract
This paper presents a dispenser printed electrode array on polyester/cotton fabric. The fabrication details needed to achieve the array, including the materials and printer set-up, are reported. The array consists of ten electrode elements for functional electrical stimulation (FES), including nine active electrodes and one common return electrode. The minimum gap between conductive tracks of 1 mm required for the design was achieved. The fabrication method can be used to tailor the electrode array to fit a wide variety of healthcare applications and an individual’s requirements for personalized healthcare.
More information
Published date: 29 April 2022
Additional Information:
Funding Information:
This research was funded by EPSRC under grant number EP/S001654/1.
Publisher Copyright:
© 2022 by the authors.
Venue - Dates:
E-Textiles 2021: International Conference on the Challenges, Opportunities, Innovations and Applications in Electronic Textiles, https://e-textilesconference.com/, Manchester, United Kingdom, 2021-11-03 - 2021-11-04
Keywords:
E-textile, dispenser printing, fabrication process, wearable electrode
Identifiers
Local EPrints ID: 473986
URI: http://eprints.soton.ac.uk/id/eprint/473986
PURE UUID: 8ad15f9b-4f6f-42f1-ab7e-c7d04d0f33b8
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Date deposited: 07 Feb 2023 17:39
Last modified: 30 Nov 2024 03:01
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