Toward sustainable wearable electronic textiles
Toward sustainable wearable electronic textiles
Smart wearable electronic textiles (e-textiles) that can detect and differentiate multiple stimuli, while also collecting and storing the diverse array of data signals using highly innovative, multifunctional, and intelligent garments, are of great value for personalized healthcare applications. However, material performance and sustainability, complicated and difficult e-textile fabrication methods, and their limited end-of-life processability are major challenges to wide adoption of e-textiles. In this review, we explore the potential for sustainable materials, manufacturing techniques, and their end-of-the-life processes for developing eco-friendly e-textiles. In addition, we survey the current state-of-the-art for sustainable fibers and electronic materials (i.e., conductors, semiconductors, and dielectrics) to serve as different components in wearable e-textiles and then provide an overview of environmentally friendly digital manufacturing techniques for such textiles which involve less or no water utilization, combined with a reduction in both material waste and energy consumption. Furthermore, standardized parameters for evaluating the sustainability of e-textiles are established, such as life cycle analysis, biodegradability, and recyclability. Finally, we discuss the current development trends, as well as the future research directions for wearable e-textiles which include an integrated product design approach based on the use of eco-friendly materials, the development of sustainable manufacturing processes, and an effective end-of-the-life strategy to manufacture next generation smart and sustainable wearable e-textiles that can be either recycled to value-added products or decomposed in the landfill without any negative environmental impacts.
Textiles, Electronics, Wearable Electronic Devices
19755-19788
Dulal, Marzia
c07b84a9-c042-4ebc-87b1-3dec64a9b9f1
Afroj, Shaila
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Ahn, Jaewan
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Cho, Yujang
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Carr, Chris
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Kim, Il-Doo
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Karim, Nazmul
31555bd6-2dc7-4359-b717-3b2fe223df36
27 December 2022
Dulal, Marzia
c07b84a9-c042-4ebc-87b1-3dec64a9b9f1
Afroj, Shaila
9b4a7a26-01db-40c7-a933-f07a7ed58a73
Ahn, Jaewan
c07012a1-a244-4e7c-8469-07f7a83be8d5
Cho, Yujang
19a409f0-08e3-4cea-a264-a8b666a69789
Carr, Chris
4a16796a-054d-4a5b-b6e0-1fc8af1868e2
Kim, Il-Doo
00f0f939-8488-45b5-bb49-4c0f07df7eb2
Karim, Nazmul
31555bd6-2dc7-4359-b717-3b2fe223df36
Dulal, Marzia, Afroj, Shaila, Ahn, Jaewan, Cho, Yujang, Carr, Chris, Kim, Il-Doo and Karim, Nazmul
(2022)
Toward sustainable wearable electronic textiles.
ACS Nano, 16 (12), .
(doi:10.1021/acsnano.2c07723).
Abstract
Smart wearable electronic textiles (e-textiles) that can detect and differentiate multiple stimuli, while also collecting and storing the diverse array of data signals using highly innovative, multifunctional, and intelligent garments, are of great value for personalized healthcare applications. However, material performance and sustainability, complicated and difficult e-textile fabrication methods, and their limited end-of-life processability are major challenges to wide adoption of e-textiles. In this review, we explore the potential for sustainable materials, manufacturing techniques, and their end-of-the-life processes for developing eco-friendly e-textiles. In addition, we survey the current state-of-the-art for sustainable fibers and electronic materials (i.e., conductors, semiconductors, and dielectrics) to serve as different components in wearable e-textiles and then provide an overview of environmentally friendly digital manufacturing techniques for such textiles which involve less or no water utilization, combined with a reduction in both material waste and energy consumption. Furthermore, standardized parameters for evaluating the sustainability of e-textiles are established, such as life cycle analysis, biodegradability, and recyclability. Finally, we discuss the current development trends, as well as the future research directions for wearable e-textiles which include an integrated product design approach based on the use of eco-friendly materials, the development of sustainable manufacturing processes, and an effective end-of-the-life strategy to manufacture next generation smart and sustainable wearable e-textiles that can be either recycled to value-added products or decomposed in the landfill without any negative environmental impacts.
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Accepted/In Press date: 10 November 2022
e-pub ahead of print date: 30 November 2022
Published date: 27 December 2022
Keywords:
Textiles, Electronics, Wearable Electronic Devices
Identifiers
Local EPrints ID: 495378
URI: http://eprints.soton.ac.uk/id/eprint/495378
ISSN: 1936-0851
PURE UUID: f5d81ba8-2503-443d-bcac-3f61518a675a
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Date deposited: 12 Nov 2024 17:36
Last modified: 16 Nov 2024 03:11
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Contributors
Author:
Marzia Dulal
Author:
Shaila Afroj
Author:
Jaewan Ahn
Author:
Yujang Cho
Author:
Chris Carr
Author:
Il-Doo Kim
Author:
Nazmul Karim
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