Tailoring plasmonic properties of metal nanoparticle-embedded dielectric thin films: the sandwich method of preparation.

Laha, Ranjit; Malar, P.; Osipowicz, Thomas; Kasiviswanathan, S.

Tailoring of plasmonic properties of metal nanoparticle-embedded dielectric thin films are very crucial for many thin film-based applications. We, herein, investigate the various ways of tuning the plasmonic positions of gold nanoparticles (AuNPs)-embedded indium oxide thin films (Au:IO) through a sequence-specific sandwich method. The sandwich method is a four-step process involving deposition of InO film by magnetron sputtering in first and fourth steps, thermal evaporation of Au on to InO film in second and annealing of Au/InO film in the third step. The Au:IO films were characterized by x-ray diffraction, spectrophotometry and transmission electron microscopy. The size and shape of the embedded nanoparticles were found from Rutherford back-scattering spectrometry. Based on dynamic Maxwell Garnett theory, the observed plasmon resonance position was ascribed to the oblate shape of AuNPs formed in sandwich method. Finally, through experimental data, it was shown that the plasmon resonance position of Au:IO thin films can be tuned by ~ 125 nm. The method shown here can be used to tune the plasmon resonance position over the entire range of visible region for the thin films made from other combinations of metal-dielectric pair.

METAL nanoparticles; DIELECTRIC thin films; INDIUM oxide; MAGNETRON sputtering; ANNEALING of crystals

Journal of Nanoparticle Research, 2017, Vol 19, Issue 9, p1

1388-0764

Academic Journal

10.1007/s11051-017-3988-2