Litcius/Paper detail

Hierarchically Doped Plasmonic Nanocrystal Metamaterials

Kihoon Kim, Zachary M. Sherman, Angela Cleri, Woo Je Chang, Jon‐Paul Maria, Thomas M. Truskett, Delia J. Milliron

2023Nano Letters31 citationsDOIOpen Access PDF

Abstract

Assembling plasmonic nanocrystals in regular superlattices can produce effective optical properties not found in homogeneous materials. However, the range of these metamaterial properties is limited when a single nanocrystal composition is selected for the constituent meta-atoms. Here, we show how continuously varying doping at two length scales, the atomic and nanocrystal scales, enables tuning of both the frequency and bandwidth of the collective plasmon resonance in nanocrystal-based metasurfaces, while these features are inextricably linked in single-component superlattices. Varying the mixing ratio of indium tin oxide nanocrystals with different dopant concentrations, we use large-scale simulations to predict the emergence of a broad infrared spectral region with near-zero permittivity. Experimentally, tunable reflectance and absorption bands are observed, owing to in- and out-of-plane collective resonances. These spectral features and the predicted strong near-field enhancement establish this multiscale doping strategy as a powerful new approach to designing metamaterials for optical applications.

Topics & Concepts

NanocrystalMetamaterialMaterials sciencePlasmonSuperlatticeDopantDopingOptoelectronicsPermittivityNanophotonicsNanotechnologyDielectricMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchGold and Silver Nanoparticles Synthesis and Applications