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Combined effects of surface plasmon coupling and Förster resonance energy transfer on the light color conversion behaviors of colloidal quantum dots on an InGaN/GaN quantum-well nanodisk structure

Yen‐Po Chen, Chia-Chun Ni, Ruei-Nan Wu, Sheng-Yang Kuo, Yu-Cheng Su, Yangyi Huang, Jiawei Chen, Yi-Chiao Hsu, Shung-Hsiang Wu, Chien‐Yu Chen, Ping-Hsiu Wu, Yean‐Woei Kiang, C. C. Yang

2020Nanotechnology21 citationsDOI

Abstract

By forming nanodisk (ND) structures on a blue-emitting InGaN/GaN quantum-well (QW) template, the QWs become close to the red-emitting quantum dots (QDs) and Ag nanoparticles (NPs) attached onto the sidewalls of the NDs such that Förster resonance energy transfer (FRET) and surface plasmon (SP) coupling can occur to enhance the efficiency of blue-to-red color conversion. With a larger ND height, more QWs are exposed to open air on the sidewall for more QD/Ag NP attachment through QD self-assembly and Ag NP drop casting such that the FRET and SP coupling effects, and hence the color conversion efficiency can be enhanced. A stronger FRET process leads to a longer QD photoluminescence (PL) decay time and a shorter QW PL decay time. It is shown that SP coupling can enhance the FRET efficiency.

Topics & Concepts

Materials scienceFörster resonance energy transferPhotoluminescenceQuantum dotOptoelectronicsSurface plasmon resonanceCoupling (piping)Surface plasmonPlasmonQuantum efficiencyResonant inductive couplingEnergy transferNanoparticleNanotechnologyOpticsMolecular physicsFluorescencePhysicsMetallurgyGaN-based semiconductor devices and materialsQuantum Dots Synthesis And PropertiesGold and Silver Nanoparticles Synthesis and Applications
Combined effects of surface plasmon coupling and Förster resonance energy transfer on the light color conversion behaviors of colloidal quantum dots on an InGaN/GaN quantum-well nanodisk structure | Litcius