3D ITO-nanowire networks as transparent electrode for all-terrain substrate

3D ITO-nanowire networks as transparent electrode for all-terrain substrate

Abstract A 3D ITO nanowire network with high quality by using polystyrene as an assisted material has been prepared, demonstrating superior optoelectronic performances with a sheet resistance of 193 Ω/sq at 96% transmission. Both remarkable flexibility tested under bending stress and excellent adhes...

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Autores principales: Qiang Li, Zhenhuan Tian, Yuantao Zhang, Zuming Wang, Yufeng Li, Wen Ding, Tao Wang, Feng Yun
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
Materias:
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Science
Q
Acceso en línea:https://doaj.org/article/5ca4321ec8ff4af9813f2adee3034c69
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spelling oai:doaj.org-article:5ca4321ec8ff4af9813f2adee3034c692021-12-02T16:08:17Z3D ITO-nanowire networks as transparent electrode for all-terrain substrate10.1038/s41598-019-41579-22045-2322https://doaj.org/article/5ca4321ec8ff4af9813f2adee3034c692019-03-01T00:00:00Zhttps://doi.org/10.1038/s41598-019-41579-2https://doaj.org/toc/2045-2322Abstract A 3D ITO nanowire network with high quality by using polystyrene as an assisted material has been prepared, demonstrating superior optoelectronic performances with a sheet resistance of 193 Ω/sq at 96% transmission. Both remarkable flexibility tested under bending stress and excellent adhesion applied on special terrain substrate have been achieved. This method has led to a full coverage of micro-holes at a depth of 18 µm and a bottom spacing of only 1 µm, as well as a perfect gap-free coverage for micro-tubes and pyramid array. It has been proved that this 3D ITO nanowire network can be used as a transparent conductive layer for optoelectronic devices with any topography surface. Through the application on the micro-holes, -tubes and -pyramid array, some new characteristics of the 3D ITO nanowires in solar cells, sensors, micro-lasers and flexible LEDs have been found. Such 3D ITO nanowire networks could be fabricated directly on micro-irregular substrates, which will greatly promote the application of the heterotypic devices.Qiang LiZhenhuan TianYuantao ZhangZuming WangYufeng LiWen DingTao WangFeng YunNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 9, Iss 1, Pp 1-9 (2019)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Qiang Li
Zhenhuan Tian
Yuantao Zhang
Zuming Wang
Yufeng Li
Wen Ding
Tao Wang
Feng Yun
3D ITO-nanowire networks as transparent electrode for all-terrain substrate
description Abstract A 3D ITO nanowire network with high quality by using polystyrene as an assisted material has been prepared, demonstrating superior optoelectronic performances with a sheet resistance of 193 Ω/sq at 96% transmission. Both remarkable flexibility tested under bending stress and excellent adhesion applied on special terrain substrate have been achieved. This method has led to a full coverage of micro-holes at a depth of 18 µm and a bottom spacing of only 1 µm, as well as a perfect gap-free coverage for micro-tubes and pyramid array. It has been proved that this 3D ITO nanowire network can be used as a transparent conductive layer for optoelectronic devices with any topography surface. Through the application on the micro-holes, -tubes and -pyramid array, some new characteristics of the 3D ITO nanowires in solar cells, sensors, micro-lasers and flexible LEDs have been found. Such 3D ITO nanowire networks could be fabricated directly on micro-irregular substrates, which will greatly promote the application of the heterotypic devices.
format article
author Qiang Li
Zhenhuan Tian
Yuantao Zhang
Zuming Wang
Yufeng Li
Wen Ding
Tao Wang
Feng Yun
author_facet Qiang Li
Zhenhuan Tian
Yuantao Zhang
Zuming Wang
Yufeng Li
Wen Ding
Tao Wang
Feng Yun
author_sort Qiang Li
title 3D ITO-nanowire networks as transparent electrode for all-terrain substrate
title_short 3D ITO-nanowire networks as transparent electrode for all-terrain substrate
title_full 3D ITO-nanowire networks as transparent electrode for all-terrain substrate
title_fullStr 3D ITO-nanowire networks as transparent electrode for all-terrain substrate
title_full_unstemmed 3D ITO-nanowire networks as transparent electrode for all-terrain substrate
title_sort 3d ito-nanowire networks as transparent electrode for all-terrain substrate
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/5ca4321ec8ff4af9813f2adee3034c69
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