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Size and temperature effect on the photoluminescent properties of Europium-doped silica nanoparticles
Hussein Fneich  1, 2@  , Manuel Vermillac  1@  , Nathalie Gaumer  3@  , Stéphane Chaussedent  3@  , Wilfried Blanc  1, *@  , Ahmad Mehdi  2@  
1 : Institut de Physique de Nice  (INPHYNI)  -  Website
Université Nice Sophia Antipolis, Université Côte d'Azur, Centre National de la Recherche Scientifique : UMR7010
Avenue Joseph VALLOT Parc Valrose 06100 NICE -  France
2 : Institut Charles Gerhardt Montpellier  (ICGM)  -  Website
CNRS-UM-ENSCM : UMR5253
Université de Montpellier, Place E. Bataillon, Bât 17, cc 1701 34095 Montpellier cedex 5 - France -  France
3 : Laboratoire de Photonique d'Angers  (LPhiA)  -  Website
UPRES EA 4464
Université d'Angers, UFR Sciences 2 Bd Lavoisier, 49045 ANGERS Cedex 01 -  France
* : Corresponding author

Optical fibers containing rare-earth (RE) doped nanoparticles are investigated to develop new devices such as fiber lasers or amplifiers [1]. Thanks to this route, alteration of the spectroscopic properties of RE ions have been already reported [2,3]. However, the broad size distribution of vitreous nanoparticles does not allow to discriminate between the role of their composition and their size on the luminescent properties as already reported for crystalline nanoparticles [4]. In this context, we take advantage of the sol-gel process to prepare vitreous nanoparticles with controlled sizes to study their luminescent properties before and after annealing at 900°C and compare their properties with the Eu-doped silica bulk.

The classic sol-gel process remains one of the most important approach for the preparation of such nanoparticles with diameter larger than 50 nm using the Stöber method [5]. Smaller ones (around 10 nm, Fig. 1.a) can be obtained by Sol-Gel in reverse micro emulsion method (water in oil) [6, 7]. In this case, the hydrolysis and the polycondensation take place in the hydrophilic micelles that play the role of nanoreactors.

For this study, silica nanoparticles with several molar contents of europium (0.2, 0.5 and 1%) were prepared in one step.

All nanoparticles were characterized by Transmission Electron Microscopy (TEM) and Inductively Coupled Plasma Mass Spectrometry (ICP-MS). The effects of the size of the nanoparticles and their Eu content (Fig. 1.b) as well as the annealing temperature effect on their photoluminescent properties have been investigated. These correlations and results will be presented and discussed.

[1] W. Blanc et al, Journal of Optics, 45, 247-254 (2016)
[2] M. Vermillac et al, Optical Materials 68, 24-28 (2017)
[3] F. d'Acapito et al, Journal of Non-Crystalline Solids, 401, 50-53 (2014)
[4] W. Blanc, “From glass to crystal. Nucleation, growth and phase separation: from research to applications”, EDP Sciences, 2017
[5] W. Stöber et al, Journal of Colloid and Interface Science, 26, 62-69 (1968)
[6] J.H. Schulman et al, The Journal of Physical Chemistry, 63, 1677-1680 (1959)
[7] W. Yang et al, Analytica Chimica Acta, 503, 163-169 (2004)



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