Dual Plasmonic Modes from In-Situ Silver Nanoparticle Formation via Diffusion at Silver / Dielectric Interfaces

TL;DR

This paper introduces a novel in-situ silver nanoparticle formation method at metal-dielectric interfaces, enabling simultaneous excitation of localized and surface plasmon modes, with implications for advanced photonic applications.

Contribution

It presents a new in-situ synthesis technique for silver nanoparticles at interfaces, combining experimental and modeling approaches to understand dual plasmonic modes.

Findings

Successful synthesis of silver nanoparticles via diffusion at interfaces

Development of an optical model for dual plasmon modes

Potential for enhanced photonic-plasmonic device applications

Abstract

Metal-dielectric interfaces of various geometries are fundamental photonic material platforms for surface plasmons. Surface plasmon polaritons and localized surface plasmons are two surface plasmon modes that are excited on planar and curved metal-dielectric interfaces, respectively. Herein, we demonstrate in-situ formation of silver nanoparticles by diffusion at a planar interface between sputter-deposited silver and nitride dielectrics. In one step, we synthesize a nanostructure that exhibits both localized surface plasmon resonances at silver nanoparticles and surface plasmon resonances at the planar interface. We develop an accurate optical model describing both surface plasmon modes by applying effective medium theories to experimental ToF-SIMS and XPS depth profiles. Our findings provide fundamental material insights into intrinsic metal-dielectric interfacial defects, along with a new in-situ nanoparticle synthesis method that seamlessly integrates with conventional fabrication of planar interfaces. These unique results open the prospect of promising photonic-plasmonic applications availing the coupling of both surface plasmon modes.