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Highly sensitive and extremely durable wearable e-textiles of graphene/carbon nanotube hybrid for cardiorespiratory monitoring

Highly sensitive and extremely durable wearable e-textiles of graphene/carbon nanotube hybrid for cardiorespiratory monitoring
Highly sensitive and extremely durable wearable e-textiles of graphene/carbon nanotube hybrid for cardiorespiratory monitoring

Electroconductive textile yarns are of particular interest for their use as flexible and wearable sensors without compromising the properties and comfort of usual textiles. However, the detection of fine actions of the human body is quite challenging since it requires both the relatively higher sensitivity and stability of the sensor. Herein, highly sensitive, ultra-stable, and extremely durable piezoresistive wearable sensors were prepared by loading N-doped rGO and polydopamine-coated carbon nanotubes into silicon rubber tube. The wearable sensors thus produced show an excellent ability to sense subtle movement or stimuli with good sensitivity and repeatability. Furthermore, by bending the straight conductive silicon rubber tube (CSRT) into three different patterns, its sensitivity was then dramatically increased. Finally, the CSRT was found capable of sensing cardiorespiratory signals, indicating that the sensor would be an important step toward realizing bio-signal sensing for next-generation personalized health care applications.

2589-0042
Tan, Sirui
5c2271af-63ea-462b-8706-46d64bd99eb1
Afroj, Shaila
9b4a7a26-01db-40c7-a933-f07a7ed58a73
Li, Daiqi
37ab6c79-7301-4fbe-85d4-b891e2c9bd31
Islam, Md Rashedul
cd0df79e-b195-48d7-913a-d9acb409586e
Wu, Jihong
aa1ca149-4e7a-4efa-9077-3e0c243bc90f
Cai, Guangming
5975b7b6-d65f-4456-82a9-917dc9f28ecf
Karim, Nazmul
31555bd6-2dc7-4359-b717-3b2fe223df36
Zhao, Zhong
7d321f72-ab0f-465a-844a-a87db4f6156d
Tan, Sirui
5c2271af-63ea-462b-8706-46d64bd99eb1
Afroj, Shaila
9b4a7a26-01db-40c7-a933-f07a7ed58a73
Li, Daiqi
37ab6c79-7301-4fbe-85d4-b891e2c9bd31
Islam, Md Rashedul
cd0df79e-b195-48d7-913a-d9acb409586e
Wu, Jihong
aa1ca149-4e7a-4efa-9077-3e0c243bc90f
Cai, Guangming
5975b7b6-d65f-4456-82a9-917dc9f28ecf
Karim, Nazmul
31555bd6-2dc7-4359-b717-3b2fe223df36
Zhao, Zhong
7d321f72-ab0f-465a-844a-a87db4f6156d

Tan, Sirui, Afroj, Shaila, Li, Daiqi, Islam, Md Rashedul, Wu, Jihong, Cai, Guangming, Karim, Nazmul and Zhao, Zhong (2023) Highly sensitive and extremely durable wearable e-textiles of graphene/carbon nanotube hybrid for cardiorespiratory monitoring. iScience, 26 (4), [106403]. (doi:10.1016/j.isci.2023.106403).

Record type: Article

Abstract

Electroconductive textile yarns are of particular interest for their use as flexible and wearable sensors without compromising the properties and comfort of usual textiles. However, the detection of fine actions of the human body is quite challenging since it requires both the relatively higher sensitivity and stability of the sensor. Herein, highly sensitive, ultra-stable, and extremely durable piezoresistive wearable sensors were prepared by loading N-doped rGO and polydopamine-coated carbon nanotubes into silicon rubber tube. The wearable sensors thus produced show an excellent ability to sense subtle movement or stimuli with good sensitivity and repeatability. Furthermore, by bending the straight conductive silicon rubber tube (CSRT) into three different patterns, its sensitivity was then dramatically increased. Finally, the CSRT was found capable of sensing cardiorespiratory signals, indicating that the sensor would be an important step toward realizing bio-signal sensing for next-generation personalized health care applications.

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More information

Accepted/In Press date: 10 March 2023
e-pub ahead of print date: 16 March 2023
Published date: 21 April 2023

Identifiers

Local EPrints ID: 495377
URI: http://eprints.soton.ac.uk/id/eprint/495377
DOI: doi:10.1016/j.isci.2023.106403
ISSN: 2589-0042
PURE UUID: a2337fd9-6e67-4060-96b3-62cbf098c8e0
ORCID for Nazmul Karim: ORCID iD orcid.org/0000-0002-4426-8995

Catalogue record

Date deposited: 12 Nov 2024 17:36
Last modified: 16 Nov 2024 03:11

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Contributors

Author: Sirui Tan
Author: Shaila Afroj
Author: Daiqi Li
Author: Md Rashedul Islam
Author: Jihong Wu
Author: Guangming Cai
Author: Nazmul Karim ORCID iD
Author: Zhong Zhao

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