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Ultrafast photoluminescence and multiscale light amplification in nanoplasmonic cavity glass

Chemistry

Ultrafast photoluminescence and multiscale light amplification in nanoplasmonic cavity glass

P. Piotrowski, M. Buza, et al.

Discover the groundbreaking research on a bulk nanocomposite glass loaded with cadmium telluride quantum dots and silver nanoparticles, showcasing extraordinary amplified photoluminescence at room temperature. Conducted by a team of experts including Piotr Piotrowski and others, this work opens up exciting possibilities for innovative applications.

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Playback language: English
Abstract
This paper presents a bulk nanocomposite glass doped with cadmium telluride quantum dots (CdTe QDs) and silver nanoparticles (nAg), exhibiting ultranarrow (FWHM = 13 nm) and ultrafast (90 ps) amplified photoluminescence (PL) at room temperature. Numerical simulations confirm that this enhanced emission results from multiscale light enhancement due to the ensemble of QD-populated plasmonic nanocavities. Power-dependent measurements indicate coherent light amplification exceeding 100 mW. These bulk plasmon–exciton composites offer potential for various applications.
Publisher
Nature Communications
Published On
Apr 17, 2024
Authors
Piotr Piotrowski, Marta Buza, Rafał Nowaczyński, Nuttawut Kongsuwan, Hańcza B. Surma, Paweł Osewski, Marcin Gajc, Adam Strzep, Witold Ryba-Romanowski, Ortwin Hess, Dorota A. Pawlak
Tags
cadmium telluride
quantum dots
silver nanoparticles
photoluminescence
light amplification
plasmon-exciton composites
nanocomposite glass

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