Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing

The fabrication of smart textiles is currently relying on the printing of ultrathin electronics on fabric, which is subject to the poor adhesion between electronics and textile. Here, Yoon et al. propose the use of cilia-like structure to improve adhesion in addition to release mechanical stress.

Guardado en:

Detalles Bibliográficos
Autores principales:	Jongwon Yoon, Yunkyung Jeong, Heeje Kim, Seonggwang Yoo, Hoon Sun Jung, Yonghun Kim, Youngkyu Hwang, Yujun Hyun, Woong-Ki Hong, Byoung Hun Lee, Sung-Hoon Choa, Heung Cho Ko
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2016
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/95b0e3e14daf47c89860cf72d3745ad1
Etiquetas:	Agregar Etiqueta Sin Etiquetas, Sea el primero en etiquetar este registro!

id	oai:doaj.org-article:95b0e3e14daf47c89860cf72d3745ad1
record_format	dspace
spelling	oai:doaj.org-article:95b0e3e14daf47c89860cf72d3745ad12021-12-02T14:40:12ZRobust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing10.1038/ncomms114772041-1723https://doaj.org/article/95b0e3e14daf47c89860cf72d3745ad12016-06-01T00:00:00Zhttps://doi.org/10.1038/ncomms11477https://doaj.org/toc/2041-1723The fabrication of smart textiles is currently relying on the printing of ultrathin electronics on fabric, which is subject to the poor adhesion between electronics and textile. Here, Yoon et al. propose the use of cilia-like structure to improve adhesion in addition to release mechanical stress.Jongwon YoonYunkyung JeongHeeje KimSeonggwang YooHoon Sun JungYonghun KimYoungkyu HwangYujun HyunWoong-Ki HongByoung Hun LeeSung-Hoon ChoaHeung Cho KoNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-10 (2016)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q Jongwon Yoon Yunkyung Jeong Heeje Kim Seonggwang Yoo Hoon Sun Jung Yonghun Kim Youngkyu Hwang Yujun Hyun Woong-Ki Hong Byoung Hun Lee Sung-Hoon Choa Heung Cho Ko Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing
description	The fabrication of smart textiles is currently relying on the printing of ultrathin electronics on fabric, which is subject to the poor adhesion between electronics and textile. Here, Yoon et al. propose the use of cilia-like structure to improve adhesion in addition to release mechanical stress.
format	article
author	Jongwon Yoon Yunkyung Jeong Heeje Kim Seonggwang Yoo Hoon Sun Jung Yonghun Kim Youngkyu Hwang Yujun Hyun Woong-Ki Hong Byoung Hun Lee Sung-Hoon Choa Heung Cho Ko
author_facet	Jongwon Yoon Yunkyung Jeong Heeje Kim Seonggwang Yoo Hoon Sun Jung Yonghun Kim Youngkyu Hwang Yujun Hyun Woong-Ki Hong Byoung Hun Lee Sung-Hoon Choa Heung Cho Ko
author_sort	Jongwon Yoon
title	Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing
title_short	Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing
title_full	Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing
title_fullStr	Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing
title_full_unstemmed	Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing
title_sort	robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing
publisher	Nature Portfolio
publishDate	2016
url	https://doaj.org/article/95b0e3e14daf47c89860cf72d3745ad1
work_keys_str_mv	AT jongwonyoon robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT yunkyungjeong robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT heejekim robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT seonggwangyoo robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT hoonsunjung robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT yonghunkim robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT youngkyuhwang robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT yujunhyun robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT woongkihong robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT byounghunlee robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT sunghoonchoa robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting AT heungchoko robustandstretchableindiumgalliumzincoxidebasedelectronictextilesformedbyciliaassistedtransferprinting
_version_	1718390369875394560

Robust and stretchable indium gallium zinc oxide-based electronic textiles formed by cilia-assisted transfer printing

Ejemplares similares