Effect of induced crystallization in rare-earth doped lithium borate glass

Steudel, Franziska; Rimbach, A. Charlotte; Loos, Sebastian; Ahrens, B.; Schweizer, Stefan

doi:10.1016/j.radmeas.2015.12.046

Cited by 21 publications

(7 citation statements)

References 30 publications

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Section: Colorimetry Analysismentioning

confidence: 95%

“…Under 345 nm excitation, the coordinates x = 0.677 and y = 0.274 corresponded to the region of red Eu 3+ luminescence, but after glass ceramization (in air or reducing atmosphere), these changed to x = 0.404 and y = 0.244 as a consequence of the Eu 2+ blue luminescence. The photoluminescence quantum efficiency was about 16% for the glass, but decreased to only 4% for the glass-ceramic due to the scattering losses [13]. The PL spectra of the initial glass showed weak Eu 3+ -related luminescence peaks at 578, 592, and 620 nm assigned to the 5 D 0 → 7 F 0-3 radiative transitions [25], which increased after glass ceramization due to the partial absorption of the UV-blue luminescence of the Eu 2+ ions (see below).…”

Section: Colorimetry Analysismentioning

confidence: 97%

“…Nevertheless, fluorozirconate glass synthesis is performed at relatively high temperature and controlled atmosphere, and therefore other glass matrix options have been considered such as such as borate glasses. The synthesis and crystallization properties of barium borate glass-ceramics in the BaO-B 2 O 3 system have been studied, and their structural and optical properties related to the borate nanocrystals (BaB 2 O 4 , BaB 4 O 7 , Li 2 B 4 O 7 ) [12][13][14][15] and BaCl 2 [16,17] nanocrystals have been investigated.…”

Section: Introductionmentioning

confidence: 99%

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Processing and Optical Properties of Eu-Doped Chloroborate Glass-Ceramic

Secu

2020

Crystals

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An europium doped BaO–B2O3–BaCl2 chloroborate glass-ceramic containing a BaCl2 nanocrystalline phase was produced by melt-quenching followed by glass crystallization during annealing. Structural and morphological investigations using x-ray diffraction and scanning electron microscopy have shown fvBaCl2 nanocrystals of about tens of nm size accompanied by a smaller amount of the BaB2O4 crystalline phase. Photoluminescence spectra have indicated the reduction of Eu3+ to Eu2+ during processing in air or a reducing atmosphere. The spectra analysis showed the presence of Eu3+ ions in the borate glass matrix, while the Eu2+ were incorporated in both the BaCl2 nanocrystals and glass matrix. Thermoluminescence properties were due to the recombination of F(Cl) centers and Eu2+ related hole centers produced by irradiation within the BaCl2 nanocrystals. The color impression of the samples and the photoluminescence quantum efficiency were influenced by the glass processing.

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Section: Colorimetry Analysismentioning

confidence: 95%

Section: Colorimetry Analysismentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

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Processing and Optical Properties of Eu-Doped Chloroborate Glass-Ceramic

Secu

2020

Crystals

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“…For the optically activated sample sets, a Li2O concentration of 25 mol% is used. The glass components are mixed and melted in a platinum gold crucible (Pt/Au 95/5) at 1000 °C for approximately 3 h. For further details on the glass preparation, the reader is referred to [8,9].…”

Section: Samplesmentioning

confidence: 99%

Suitability of Lock-in Infrared Thermography for Luminescent Glass Development

Nolte¹,

Ziegeler²,

Rimbach³

et al. 2018

Proceedings of the 2018 International Conference on Quantitative InfraRed Thermography

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The purpose of this work is to evaluate the suitability of lock-in infrared thermography for luminescent glass development. Lithium borate glass of different composition is fabricated and studied to detect changes in the thermal diffusivity as the composition changes and property modifiers are introduced. In addition, the effect of terbium doping on the thermal diffusivity of the glass is studied.

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“…Whereas the influences of e.g. long-term degradation [1][2][3], particle size [4][5][6][7][8] or investigated temperature range (during non-isothermal measurements determined by the heating rate) [9][10][11] on the DSC/DTA crystallization measurements of chalcogenide glasses are relatively well documented, the influence of the reaction atmosphere has been neglected for the past decades.…”

Section: Introductionmentioning

confidence: 99%

Crystallization of (GeSe2)0.3(Sb2Se3)0.7 chalcogenide glass - Influence of reaction atmosphere

Svoboda

2019

Journal of Non-Crystalline Solids

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Differential scanning calorimetry, infrared microscopy and X-ray diffraction analysis and were used to investigate the influence of reaction atmosphere (air versus pure nitrogen) on crystallization behavior of (GeSe2)0.3(Sb2Se3)0.7 glass. The presence of oxygen was found to accelerate the crystal growth both on surface and in bulk material, with a similar effect in case of powders and bulk samples. Detailed crystallization kinetics study was performed, revealing that the presence of oxygen leads to a lowered activation energy and steeper onset of the processsingle-curve-averaged masterplot approach was used to deal with the temperature-differentiated complexity of the crystallization. Direct observations by infrared microscopy have shown that the presence of oxygen leads to a formation of robust surface crystalline layer, which prevents powder sintering and bulk samples deformation by viscous flow, and to a more rapid nucleation and crystal growth within the sample volume. Based on the viscosity values estimated for the crystallization temperatures, an explanation for the accelerated volume crystallization was proposed, employing the quasi-stationary conditions contributing to better cohesivity of critical nuclei and crystal/glass interface. The existence of the surface crystalline layer however prevents the sample from reaching full crystallinity.

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Effect of induced crystallization in rare-earth doped lithium borate glass

Cited by 21 publications

References 30 publications

Processing and Optical Properties of Eu-Doped Chloroborate Glass-Ceramic

Processing and Optical Properties of Eu-Doped Chloroborate Glass-Ceramic

Suitability of Lock-in Infrared Thermography for Luminescent Glass Development

Crystallization of (GeSe2)0.3(Sb2Se3)0.7 chalcogenide glass - Influence of reaction atmosphere

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