Recent Progress of Textile‐Based Wearable Electronics: A Comprehensive Review of Materials, Devices, and Applications

Wearable electronics are emerging as a platform for next‐generation, human‐friendly, electronic devices. A new class of devices with various functionality and amenability for the human body is essential. These new conceptual devices are likely to be a set of various functional devices such as displa...

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Veröffentlicht in:	Small (Weinheim an der Bergstrasse, Germany) Germany), 2018-01, Vol.14 (3), p.n/a
Hauptverfasser:	Heo, Jae Sang, Eom, Jimi, Kim, Yong‐Hoon, Park, Sung Kyu
Format:	Artikel
Sprache:	eng
Schlagworte:	Batteries Electronic devices electronic textiles Electronics fiber‐based batteries fiber‐based sensors fiber‐based transistors fiber‐based wearable electronics Human body Mechanical properties Nanotechnology Smart materials System effectiveness Textiles Wearable technology Weight reduction
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creator	Heo, Jae Sang Eom, Jimi Kim, Yong‐Hoon Park, Sung Kyu
description	Wearable electronics are emerging as a platform for next‐generation, human‐friendly, electronic devices. A new class of devices with various functionality and amenability for the human body is essential. These new conceptual devices are likely to be a set of various functional devices such as displays, sensors, batteries, etc., which have quite different working conditions, on or in the human body. In these aspects, electronic textiles seem to be a highly suitable possibility, due to the unique characteristics of textiles such as being light weight and flexible and their inherent warmth and the property to conform. Therefore, e‐textiles have evolved into fiber‐based electronic apparel or body attachable types in order to foster significant industrialization of the key components with adaptable formats. Although the advances are noteworthy, their electrical performance and device features are still unsatisfactory for consumer level e‐textile systems. To solve these issues, innovative structural and material designs, and novel processing technologies have been introduced into e‐textile systems. Recently reported and significantly developed functional materials and devices are summarized, including their enhanced optoelectrical and mechanical properties. Furthermore, the remaining challenges are discussed, and effective strategies to facilitate the full realization of e‐textile systems are suggested. Wearable electronics are emerging as a platform for next‐generation, human‐friendly, electronic devices. Consequently, a new class of devices with various functionality and amenability for the human body is essential. Here, reported and developed functional materials and devices are summarized, and the remaining challenges are discussed, suggesting effective strategies to facilitate the full realization of e‐textile systems.
doi_str_mv	10.1002/smll.201703034
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A new class of devices with various functionality and amenability for the human body is essential. These new conceptual devices are likely to be a set of various functional devices such as displays, sensors, batteries, etc., which have quite different working conditions, on or in the human body. In these aspects, electronic textiles seem to be a highly suitable possibility, due to the unique characteristics of textiles such as being light weight and flexible and their inherent warmth and the property to conform. Therefore, e‐textiles have evolved into fiber‐based electronic apparel or body attachable types in order to foster significant industrialization of the key components with adaptable formats. Although the advances are noteworthy, their electrical performance and device features are still unsatisfactory for consumer level e‐textile systems. To solve these issues, innovative structural and material designs, and novel processing technologies have been introduced into e‐textile systems. Recently reported and significantly developed functional materials and devices are summarized, including their enhanced optoelectrical and mechanical properties. Furthermore, the remaining challenges are discussed, and effective strategies to facilitate the full realization of e‐textile systems are suggested. Wearable electronics are emerging as a platform for next‐generation, human‐friendly, electronic devices. Consequently, a new class of devices with various functionality and amenability for the human body is essential. 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subjects	Batteries Electronic devices electronic textiles Electronics fiber‐based batteries fiber‐based sensors fiber‐based transistors fiber‐based wearable electronics Human body Mechanical properties Nanotechnology Smart materials System effectiveness Textiles Wearable technology Weight reduction
title	Recent Progress of Textile‐Based Wearable Electronics: A Comprehensive Review of Materials, Devices, and Applications
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