The beginnings of plasmomechanics: towards plasmonic strain sensors
This article exposes the beginnings of a new field which could be named as “plasmomechanics”. Plasmomechanics comes from the convergence between mechanics and plasmonics. Here we discuss a relatively recent topic whose technological aim is the development of plasmonic strain sensors. The idea is bas...
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Published in | Frontiers of materials science Vol. 9; no. 2; pp. 170 - 177 |
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Main Authors | , , , , , , , , , , , |
Format | Journal Article |
Language | English |
Published |
Beijing
Higher Education Press
2015
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Subjects | |
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Abstract | This article exposes the beginnings of a new field which could be named as “plasmomechanics”. Plasmomechanics comes from the convergence between mechanics and plasmonics. Here we discuss a relatively recent topic whose technological aim is the development of plasmonic strain sensors. The idea is based on the ability to deduce Au nanoparticles (NPs) distance distributions from polarized optical extinction spectroscopy which could thus give access to material strains. Variations of interparticle distances distributions can indeed lead to variations of plasmonic coupling and thus to material color change as shown here experimentally and numerically for random Au NP assemblies deposited onto elastomer films. |
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AbstractList | This article exposes the beginnings of a new field which could be named as “plasmomechanics”. Plasmomechanics comes from the convergence between mechanics and plasmonics. Here we discuss a relatively recent topic whose technological aim is the development of plasmonic strain sensors. The idea is based on the ability to deduce Au nanoparticles (NPs) distance distributions from polarized optical extinction spectroscopy which could thus give access to material strains. Variations of interparticle distances distributions can indeed lead to variations of plasmonic coupling and thus to material color change as shown here experimentally and numerically for random Au NP assemblies deposited onto elastomer films. This article exposes the beginnings of a new field which could be named as "plasmomechanics". Plasmomechanics comes from the convergence between mechanics and plasmonics. Here we discuss a relatively recent topic whose technolo- gical aim is the development of plasmonic strain sensors, The idea is based on the ability to deduce Au nanoparticles (NPs) distance distributions from polarized optical extinction spectroscopy which could thus give access to material strains. Variations of interparticle distances distributions can indeed lead to variations of plasmonic coupling and thus to material color change as shown here experimentally and numerically for random Au NP assemblies deposited onto elastomer films, |
Author | Thomas MAURER Joseph MARAE-DJOUDA Ugo CATALDI Arthur GONTIER Guillaume MONTAY Yazid MADI Benoit PANICAUD Demetrio MACIAS Pierre-Michel ADAM Gaetan LEVEQUE Thomas BURGI Roberto CAPUTO |
AuthorAffiliation | Laboratory of Nanotechnology and Instrumentation in Optics (LNIO), ICD CNRS UMR 6281, University of Technology of Troyes, CS 42060, 10004 Troyes, France The Laboratory of Mechanical Systems and Concurrent Engineeringl ICD CNRS UMR 6281, University of Technology of Troyes, CS 42060, 10004 Troyes, France Ermess, EPF, Sceaux, France Center of Materials, Mines ParisTech, UMR CNRS 7633, BP 87, 91003 Evry Cedex, France Institute of Electronics, Microelectronics and Nanotechnology (IEMN, CNRS-8520), Cite Scientifique, Avenue Poincare, 59652 Villeneuve d'Ascq, France Department of Physical Chemistry, University of Geneva, 30 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland Department of Physics and CNR-NANOTEC, University of Calabria, 87036 Rende, Italy |
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Cites_doi | 10.1016/S0925-4005(98)00321-9 10.2217/17435889.1.2.201 10.1039/C4TC01607F 10.1021/nl102713c 10.1364/OE.14.009988 10.1038/nature02905 10.1038/nnano.2014.189 10.1088/0957-4484/25/22/225603 10.1021/la0355085 10.1021/cr030698+ 10.1021/jp807904s 10.1007/s11051-013-1656-8 10.1007/BF03215287 10.1021/ja044087q 10.1016/j.actamat.2011.01.051 10.1021/ja020393x 10.1007/BF03215514 10.1021/nl071008a 10.1364/AO.36.009496 |
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Keywords | strain composite material elastomeric film metallic nanoparticle localized surface plasmon resonance (LSPR) |
Language | English |
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Notes | localized surface plasmon resonance (LSPR); metallic nanoparticle; strain;composite material; elastomeric film This article exposes the beginnings of a new field which could be named as "plasmomechanics". Plasmomechanics comes from the convergence between mechanics and plasmonics. Here we discuss a relatively recent topic whose technolo- gical aim is the development of plasmonic strain sensors, The idea is based on the ability to deduce Au nanoparticles (NPs) distance distributions from polarized optical extinction spectroscopy which could thus give access to material strains. Variations of interparticle distances distributions can indeed lead to variations of plasmonic coupling and thus to material color change as shown here experimentally and numerically for random Au NP assemblies deposited onto elastomer films 11-5985/TB Document received on :2015-02-02 strain Document accepted on :2015-03-17 elastomeric film composite material metallic nanoparticle localized surface plasmon resonance (LSPR) |
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PublicationTitle | Frontiers of materials science |
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SubjectTerms | Chemistry and Materials Science composite material elastomeric film localized surface plasmon resonance (LSPR) Materials Science metallic nanoparticle NPS Research Article strain 光谱分布 应变传感器 电浆 等离子体 距离分布 金纳米粒子 颜色变化 |
Title | The beginnings of plasmomechanics: towards plasmonic strain sensors |
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