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Plasmon Energy Transfer Driven by Electrochemical Tuning of Methylene Blue on Single Gold Nanorods

Hyuncheol Oh, Emily K. Searles, Subhojyoti Chatterjee, Zhenyang Jia, Stephen Lee, Stephan Link, Christy F. Landes

2023ACS Nano23 citationsDOI

Abstract

Plasmonic photocatalysis has attracted interest for its potential to generate energy-efficient reactions, but ultrafast internal conversion limits efficient plasmon-based chemistry. Resonance energy transfer (RET) to surface adsorbates offers a way to outcompete internal conversion pathways and also eliminate the need for sacrificial counter-reactions. Herein, we demonstrate RET between methylene blue (MB) and gold nanorods (AuNRs) using in situ single-particle spectroelectrochemistry. During electrochemically driven reversible redox reactions between MB and leucomethylene blue (LMB), we show that the homogeneous line width is broadened when spectral overlap between AuNR scattering and absorption of MB is maximized, indicating RET. Additionally, electrochemical oxidative oligomerization of MB allowed additional dipole coupling to generate RET at lower energies. Time-dependent density functional theory-based simulated absorption provided theoretical insight into the optical properties, as MB molecules were electrochemically oligomerized. Our findings show a mechanism for driving efficient plasmon-assisted processes by RET through the change in the chemical states of surface adsorbates.

Topics & Concepts

NanorodPlasmonMethylene blueSurface plasmon resonancePhotochemistryMaterials scienceElectrochemistryAbsorption (acoustics)Density functional theoryRedoxChemical physicsNanotechnologyChemistryNanoparticleOptoelectronicsPhotocatalysisElectrodePhysical chemistryComputational chemistryCatalysisOrganic chemistryMetallurgyComposite materialGold and Silver Nanoparticles Synthesis and ApplicationsQuantum Dots Synthesis And PropertiesElectrochemical Analysis and Applications
Plasmon Energy Transfer Driven by Electrochemical Tuning of Methylene Blue on Single Gold Nanorods | Litcius