Au@Ag Core–Shell Nanorods Support Plasmonic Fano Resonances
O. PeñaPablo Díaz‐NúñezGuillermo González‐RubioVanesa Manzaneda‐GonzálezA. RiveraJ.M. PerladoElena JunqueraAndrés Guerrero‐Martínez
Abstract
Abstract In this work, we investigated experimentally and theoretically the plasmonic Fano resonances (FRs) exhibited by core–shell nanorods composed of a gold core and a silver shell (Au@Ag NRs). The colloidal synthesis of these Au@Ag NRs produces nanostructures with rich plasmonic features, of which two different FRs are particularly interesting. The FR with spectral location at higher energies (3.7 eV) originates from the interaction between a plasmonic mode of the nanoparticle and the interband transitions of Au. In contrast, the tunable FR at lower energies (2.92–2.75 eV) is ascribed to the interaction between the dominant transversal LSPR mode of the Ag shell and the transversal plasmon mode of the Au@Ag nanostructure. The unique symmetrical morphology and FRs of these Au@Ag NRs make them promising candidates for plasmonic sensors and metamaterials components.
Metrics
Citation History
Topics
Related Documents
Exploration of Bimetallic Au@Ag Core–Shell Nanocubes Dimers Supports Plasmonic Fano Resonances
Lamia Abu El MaatiFatemah H. AlkallasAmira Ben Gouider TrabelsiSamira ElaissiTahani A. AlrebdiMahmoud Ahmad
Au@Ag core–shell nanoparticles: efficient all-plasmonic Fano-resonance generators
Effect of shell thickness on a Au–Ag core–shell nanorods-based plasmonic nano-sensor
Qiang FuD G ZhangMingfang YiX X WangYiBo ChenP WangHai Ming
Tailoring of Localized Surface Plasmon Resonances of Core-Shell Au@Ag Nanorods by Changing the Thickness of Ag Shell
Lisheng ZhangFeng ZhaoZhipeng LiYan FangPeijie Wang
SERS spectral evolution of azo-reactions mediated by plasmonic Au@Ag core–shell nanorods
Mengen HuZhulin HuangRui LiuNingning ZhouHaibin TangGuowen Meng