Formation of Photoluminescent Lead Bromide Nanoparticles on Aluminoborosilicate Glass

A multicomponent aluminoborosilicate photoluminescent glass was synthesized by introducing Pb(II) and NaBr in its composition. The room-temperature photoluminescence is due to the existence of 4 nm nanocrystals, shown using TEM imaging and XRD analysis, which are assigned to PbBr2 nanocrystals. The...

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Bibliographic Details
Main Author: Ruivo, Andreia (author)
Other Authors: Andrade, Suzana M. (author), Rocha, Joao (author), Laia, Cesar A. T. (author), Pina, Fernando (author)
Format: article
Language:eng
Published: 1000
Subjects:
HALIDE PHOTOCHROMIC-GLASSES
SILICATE-GLASSES
ELECTRON-TRANSFER
BORATE GLASSES
RAMAN
LUMINESCENCE
MELTS
MECHANISM
SPECTROSCOPY
CRYSTALS
Online Access:http://hdl.handle.net/10773/20776
Country:Portugal
Oai:oai:ria.ua.pt:10773/20776
Description
Summary:A multicomponent aluminoborosilicate photoluminescent glass was synthesized by introducing Pb(II) and NaBr in its composition. The room-temperature photoluminescence is due to the existence of 4 nm nanocrystals, shown using TEM imaging and XRD analysis, which are assigned to PbBr2 nanocrystals. The glasses display a broad emission band with a peak at 2.85 eV by exciting at 3.35 eV, with an anisotropy equal to 0.19 at room temperature. At 77 K, the emission intensity increases 1 order of magnitude and a vibronic structure appears, indicating an electron-phonon coupling with the glass matrix. Time-resolved luminescence measurements of these nanocrystals reveal mixed-order kinetics, with second-order recombination of self-trapped electron centers and a first-order temperature-dependent nonradiative rate constant connected with pathways due to confinement of self-trapped centers.

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