Add to ORKGResumen del trabajo presentado al 5th International Topical meeting on Nanophotonics and Metamaterials, celebrado en Seefeld (Austria) del 5 al 8 de enero de 2015.Plasmonically-coupled metal nanoparticles with nanometer-sized gaps produce extremely-localised and strongly enhanced optical fields. We tune gaps and use the fields to detect smallest traces of substances in the gap using spectroscopy and surface-enhance Raman scattering.Peer reviewe
A small gap between metal nanoparticles provides a strong local field enhancement when illuminated w...
The core of this thesis explores the optical response and tuneability of plasmonic cavities. At its ...
Gap-enhanced Raman tags are a new type of optical probe that have wide applications in sensing and d...
This is an open access article published under a Creative Commons Attribution (CC-BY) License.-- et ...
Nanometer-sized gaps between plasmonically coupled adjacent metal nanoparticles enclose extremely lo...
Nanometer-sized gaps between plasmonically coupled adjacent metal nanoparticles enclose extremely lo...
ABSTRACT: Pairs of metal nanoparticles with a sub-10 nm gap are an efficient way to achieve extreme ...
Resumen del trabajo presentado al International Chemical Congress of Pacific Basin Societies, celebr...
Resumen del trabjo presntado a la 18th National Conference on Light Scattering, celebrada en China d...
The research reported in this thesis focuses on the high field localisation formed in the nanometric...
Resumen del trabajo presentado a la 2nd International Conference on Enhanced Spectroscopies, celebra...
Resumen del trabajo presentado a la Conferencia Plasmonica, celebrada en Lecce (Italia) del 5 al 7 d...
Metallic nanostructures with nanometer gaps support hybrid plasmonic modes with an extremely small m...
ABSTRACT: Graphene is used as the thinnest possible spacer between gold nanoparticles and a gold sub...
Pairs of metal nanoparticles with a sub-10 nm gap are an efficient way to achieve extreme near-field...
A small gap between metal nanoparticles provides a strong local field enhancement when illuminated w...
The core of this thesis explores the optical response and tuneability of plasmonic cavities. At its ...
Gap-enhanced Raman tags are a new type of optical probe that have wide applications in sensing and d...
This is an open access article published under a Creative Commons Attribution (CC-BY) License.-- et ...
Nanometer-sized gaps between plasmonically coupled adjacent metal nanoparticles enclose extremely lo...
Nanometer-sized gaps between plasmonically coupled adjacent metal nanoparticles enclose extremely lo...
ABSTRACT: Pairs of metal nanoparticles with a sub-10 nm gap are an efficient way to achieve extreme ...
Resumen del trabajo presentado al International Chemical Congress of Pacific Basin Societies, celebr...
Resumen del trabjo presntado a la 18th National Conference on Light Scattering, celebrada en China d...
The research reported in this thesis focuses on the high field localisation formed in the nanometric...
Resumen del trabajo presentado a la 2nd International Conference on Enhanced Spectroscopies, celebra...
Resumen del trabajo presentado a la Conferencia Plasmonica, celebrada en Lecce (Italia) del 5 al 7 d...
Metallic nanostructures with nanometer gaps support hybrid plasmonic modes with an extremely small m...
ABSTRACT: Graphene is used as the thinnest possible spacer between gold nanoparticles and a gold sub...
Pairs of metal nanoparticles with a sub-10 nm gap are an efficient way to achieve extreme near-field...
A small gap between metal nanoparticles provides a strong local field enhancement when illuminated w...
The core of this thesis explores the optical response and tuneability of plasmonic cavities. At its ...
Gap-enhanced Raman tags are a new type of optical probe that have wide applications in sensing and d...