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Surface Plasmon–Photon Coupling in Lanthanide-Doped Nanoparticles

Xian Qin, Albano N. Carneiro Neto, Ricardo L. Longo, Y. H. Wu, Oscar L. Malta, Xiaogang Liu

2021The Journal of Physical Chemistry Letters91 citationsDOI

Abstract

Lanthanide-doped nanoparticles have great potential for energy conversion applications, as their optical properties can be precisely controlled by varying the doping composition, concentration, and surface structures, as well as through plasmonic coupling. In this Perspective we highlight recent advances in upconversion emission modulation enabled by coupling upconversion nanoparticles with well-defined plasmonic nanostructures. We emphasize fundamental understanding of luminescence enhancement, monochromatic emission amplification, lifetime tuning, and polarization control at nanoscale. The interplay between localized surface plasmons and absorbed photons at the plasmonic metal-lanthanide interface substantially enriches the interpretation of plasmon-coupled nonlinear photophysical processes. These studies will enable novel functional nanomaterials or nanostructures to be designed for a multitude of technological applications, including biomedicine, lasing, optogenetics, super-resolution imaging, photovoltaics, and photocatalysis.

Topics & Concepts

PlasmonMaterials scienceNanomaterialsNanotechnologySurface plasmonPhoton upconversionOptoelectronicsLanthanidePhotovoltaicsNanoparticleNanophotonicsDopingPlasmonic nanoparticlesSurface plasmon resonanceChemistryPhotovoltaic systemBiologyIonOrganic chemistryEcologyLuminescence Properties of Advanced MaterialsNanoplatforms for cancer theranosticsLuminescence and Fluorescent Materials
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