Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes

Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes

Flexible transparent metal nanomeshes via vapor dealloying A simple chemical vapor treatment method has been developed to fabricate highly transparent and flexible conducting electrodes with Au-Cu alloy. A team of scientists led by Prof Abdel-Aziz El Mel from Université de Nantes, CNRS, France devel...

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Main Authors: Adrien Chauvin, Willigis Txia Cha Heu, Joze Buh, Pierre-Yves Tessier, Abdel-Aziz El Mel
Format: Article
Language:English
Published: Nature Publishing Group 2019-03-01
Series:npj Flexible Electronics
Online Access:https://doi.org/10.1038/s41528-019-0049-1
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spelling doaj-48284c94526b407e96c65d79feea9a2b2021-04-02T20:15:34ZengNature Publishing Groupnpj Flexible Electronics2397-46212019-03-01311610.1038/s41528-019-0049-1Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodesAdrien Chauvin0Willigis Txia Cha Heu1Joze Buh2Pierre-Yves Tessier3Abdel-Aziz El Mel4Institut des Matériaux Jean Rouxel, IMN, Université de Nantes, CNRSInstitut des Matériaux Jean Rouxel, IMN, Université de Nantes, CNRSJožef Stefan Institute, Complex matter departmentInstitut des Matériaux Jean Rouxel, IMN, Université de Nantes, CNRSInstitut des Matériaux Jean Rouxel, IMN, Université de Nantes, CNRSFlexible transparent metal nanomeshes via vapor dealloying A simple chemical vapor treatment method has been developed to fabricate highly transparent and flexible conducting electrodes with Au-Cu alloy. A team of scientists led by Prof Abdel-Aziz El Mel from Université de Nantes, CNRS, France develop a cheap ‘vapor de-alloying’ approach to make flexible transparent conductive electrodes. They find that the nitric acidic vapor can gradually etch the ultra-thin Au-Cu alloy thin films and form holey yet continuous metal nanomesh electrodes. As a result, the electrodes show high transmittance of 79% and low sheet resistance of 44 ohm per square, comparable to conventional indium tin oxide. Remarkably, the nanomesh electrodes pass stringent mechanical deformation test of 10,000 cycles at a bending radius of 6 mm. This approach provides a nice alternative to make transparent conductive electrodes with high flexibility and bendability.https://doi.org/10.1038/s41528-019-0049-1
collection DOAJ
language English
format Article
sources DOAJ
author Adrien Chauvin
Willigis Txia Cha Heu
Joze Buh
Pierre-Yves Tessier
Abdel-Aziz El Mel
spellingShingle Adrien Chauvin
Willigis Txia Cha Heu
Joze Buh
Pierre-Yves Tessier
Abdel-Aziz El Mel
Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes
npj Flexible Electronics
author_facet Adrien Chauvin
Willigis Txia Cha Heu
Joze Buh
Pierre-Yves Tessier
Abdel-Aziz El Mel
author_sort Adrien Chauvin
title Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes
title_short Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes
title_full Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes
title_fullStr Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes
title_full_unstemmed Vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes
title_sort vapor dealloying of ultra-thin films: a promising concept for the fabrication of highly flexible transparent conductive metal nanomesh electrodes
publisher Nature Publishing Group
series npj Flexible Electronics
issn 2397-4621
publishDate 2019-03-01
description Flexible transparent metal nanomeshes via vapor dealloying A simple chemical vapor treatment method has been developed to fabricate highly transparent and flexible conducting electrodes with Au-Cu alloy. A team of scientists led by Prof Abdel-Aziz El Mel from Université de Nantes, CNRS, France develop a cheap ‘vapor de-alloying’ approach to make flexible transparent conductive electrodes. They find that the nitric acidic vapor can gradually etch the ultra-thin Au-Cu alloy thin films and form holey yet continuous metal nanomesh electrodes. As a result, the electrodes show high transmittance of 79% and low sheet resistance of 44 ohm per square, comparable to conventional indium tin oxide. Remarkably, the nanomesh electrodes pass stringent mechanical deformation test of 10,000 cycles at a bending radius of 6 mm. This approach provides a nice alternative to make transparent conductive electrodes with high flexibility and bendability.
url https://doi.org/10.1038/s41528-019-0049-1
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