The Effects of the Incorporation of Luminescent Vanadate Nanoparticles in Lithium Borate Glass Matrices by Various Methods.

Bibliographic Details
Title: The Effects of the Incorporation of Luminescent Vanadate Nanoparticles in Lithium Borate Glass Matrices by Various Methods.
Authors: Chukova, Oksana1,2,3 (AUTHOR) chukova@univ.kiev.ua, Fesych, Ihor1 (AUTHOR) voitana@ukr.net, Voitenko, Tetiana1 (AUTHOR), Baran, Volodymyr2 (AUTHOR) aleksei.kotlov@desy.de, Kotlov, Aleksei2 (AUTHOR), Conner, Robin L.3 (AUTHOR) luiz@g.clemson.edu, Jacobsohn, Luiz G.3 (AUTHOR), Manousaki, Alexandra4 (AUTHOR) manousa@iesl.forth.gr, Stratakis, Emmanuel4 (AUTHOR) stratak@iesl.forth.gr
Source: Solids (2673-6497). Dec2024, Vol. 5 Issue 4, p485-498. 14p.
Subject Terms: *BORATE glass, *ION emission, *NANOPARTICLES, *LUMINESCENCE, *LANTHANUM, *GLASS-ceramics
Abstract: The glass-ceramic materials studied in this work are designed using combinations of lithium vanadate borate glass matrices and lanthanum/rare earth (RE) vanadate nanoparticles. Three different techniques of sintering of the glass matrix and vanadate nanoparticles are investigated. The morphological characteristics and spectral properties of the glass-ceramic samples obtained by different techniques are investigated and analyzed in comparison with the properties of the original glass matrices and nanoparticles. The luminescence spectra of all glass-ceramic samples consist of a wideband glass matrix emission and the characteristic line emission of the RE ions that are incorporated into the glass matrices as nanoparticles. The RE luminescence of these glass-ceramics is promising for various optoelectronic applications. [ABSTRACT FROM AUTHOR]
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Database: Academic Search Complete
More Details
ISSN:26736497
DOI:10.3390/solids5040032
Published in:Solids (2673-6497)
Language:English