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Control of Charge Carrier Dynamics in Plasmonic Au Films by TiO<sub><i>x</i></sub> Substrate Stoichiometry

Teng-Fei Lu, Yi-Siang Wang, John A. Tomko, Patrick E. Hopkins, Hong‐Xing Zhang, Oleg V. Prezhdo

2020The Journal of Physical Chemistry Letters28 citationsDOI

Abstract

Plasmonic excitations in noble metals have many fascinating properties and give rise to a broad range of applications. We demonstrate, using nonadiabatic molecular dynamics combined with time-domain density functional theory, that the chemical composition and stoichiometry of substrates can have a strong influence on charge dynamics. By changing oxygen content in TiO2, including stoichiometric, oxygen rich, and oxygen poor phases, and Ti metal, one can alter lifetimes of charge carriers in Au by a factor of 5 and control the ratio of electron-to-hole relaxation rates by a factor of 10. Remarkably, a thin TiOx substrate greatly alters charge carrier properties in much thicker Au films. Such large variations stem from the fact that the Ti and O atoms are much lighter than Au, and their vibrations are much faster at dissipating the energy. The control over a particular charge carrier and an energy range depends on the Au and TiOx level alignment, and the interfacial interaction strength. These factors are easily influenced by the TiOx stoichiometry. In particular, oxygen rich and poor TiO2 can be used to control holes and electrons, respectively, while metallic Ti affects both charge carriers. The detailed atomistic analysis of the interfacial and electron-vibrational interactions generates the fundamental understanding of the properties of plasmonic materials needed to design photovoltaic, photocatalytic, optoelectronic, sensing, nanomedical, and other devices.

Topics & Concepts

StoichiometryMaterials scienceCharge carrierChemical physicsPlasmonSubstrate (aquarium)Density functional theoryElectronRelaxation (psychology)NanotechnologyOptoelectronicsChemistryComputational chemistryPhysical chemistryPhysicsPsychologyGeologySocial psychologyOceanographyQuantum mechanicsCopper-based nanomaterials and applicationsGold and Silver Nanoparticles Synthesis and ApplicationsSpectroscopy and Quantum Chemical Studies
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