Dimensional influence on plasmonic response of trimetallic nanorods

Abstract

In recent years, the possible synthesis of multimetallic nanostructures moulded by combining the individual noble metals attract a considerable attention in place of bare noble metals due to their improved optical response and cost effectiveness. In this study, the plasmonic response of Au composition dependent Au-Ag-Cu trimetallic alloy nanorods (NRs) have been investigated by modified Gans theory. The aspect ratio, size, surrounding medium, and composition dependent optical parameters such as longitudinal plasmon resonance (LSPR), its intensity, and full width at half maxima (FWHM) have been calculated for their possible selection in cost effective plasmonic applications. These optical parameters can be tuned from visible to infrared (IR) region of the electromagnetic (EM) spectrum. The aspect ratio and size reveals the strong effect on optical parameters whereas the change in Au composition shows negligible effect on optical properties of Au-Ag-Cu NRs due to their similar values of dielectric functions in IR regime. It has been found that the longitudinal plasmon resonance shifts towards the longer wavelength region with increase in aspect ratio and size of the NR, and FWHM is relatively enhanced in trimetallic nanoparticles (NPs) as compared to the individual and bimetallic NPs. Further, the change in surrounding medium shows a significant shift in plasmon resonance.