Electric field induced structural colour tuning of a Silver/Titanium dioxide nanoparticle one-dimensional photonic crystals

TL;DR

This study demonstrates the first active electric field tuning of structural colour in Silver/Titanium dioxide nanoparticle photonic crystals, enabling potential applications in electro-optic switching with small voltage changes.

Contribution

It introduces a novel active tuning method for Silver/TiO2 nanoparticle photonic crystals using electric fields, showing measurable shifts in optical properties.

Findings

10 nm shift at 10 V applied voltage

Blue shift of Silver plasmon band and photonic band gap

First demonstration of active colour tuning in this system

Abstract

The active tuning of the structural colour in photonic crystals by an electric field represents an effective external stimulus with impact on light transmission manipulation. In this work we present this effect in a photonic crystal device with alternating layers of Silver and Titanium dioxide nanoparticles showing shifts of around 10 nm for an applied voltage of 10 V only. The accumulation of charges at the metal/dielectric interface with applied electric field leads to an effective increase of the charges contributing to the plasma frequency in Silver. This initiates a blue shift of the Silver plasmon band with a simultaneous blue shift of the photonic band gap as a result of the change in Silver dielectric function, i.e. decrease of the effective refractive index. These results are the first demonstration of active colour tuning in Silver/TiO2 nanoparticle based photonic crystals and open the route to metal/dielectric based photonic crystals as electro-optic switches.