2D hybrid networks of gold nanoparticles: mechanoresponsive optical humidity sensors

Accès libre Peer reviewed | |
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Version acceptée pour publication (post-print auteur) | |
Paternité - Pas d'utilisation commerciale [CC] [BY] [NC] ![]() |
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Auteurs |
Marco Squillaci Léo Peyruchat Cyriaque Genet Thomas Ebbesen Paolo Samori Xiaolan Zhong |
Unité de recherche du site |
Institut de Science et d'Ingénierie Supramoléculaires - ISIS - UMR7006 University of Strasbourg |
Langue |
en |
Volume |
11 |
Numéro |
41 |
Page de début |
19315 |
Page de fin |
19318 |
Date de première publication |
2019-08-05 |
ISSN |
2040-3364 |
Titre de la source (revue, livre…) |
Nanoscale |
Résumé |
Plasmonic coupling is a fascinating phenomenon occurring between neighboring metal nanostructures. We report a straightforward approach to study such process macroscopically by fabricating 2D networks of gold nanoparticles, interconnected with Show morePlasmonic coupling is a fascinating phenomenon occurring between neighboring metal nanostructures. We report a straightforward approach to study such process macroscopically by fabricating 2D networks of gold nanoparticles, interconnected with responsive hygroscopic organic linkers. By controlling the humidity we tune the interparticle distance to reversibly trigger plasmonic coupling collectively over several millimeters. Show less |
DOI | 10.1039/C9NR05337A |
Titre abrégé de la source |
Nanoscale |
Type de publication |
ACL |
Projet(s) de recherche ANR |
ANR Equipex Union (ANR-10-EQPX-52-01) |
Projet(s) de recherche européen(s) |
ERC/GA-257305/SUPRAFUNCTION |
Domaine |
Chimie/Matériaux |
Fonction |
aut |
Identifiant idREF |
224216740 075088843 086037536 109288335 |
Audience |
International |
Envoyer vers HAL |
5 |
URL | https://univoak.eu/islandora/object/islandora:84648 |