Photoluminescence in ZrO2 doped with Y and La

Sousa, W. S.; Melo, D. M. A.; Silva, J. E. C. da; Nasar, R. S.; Nasar, M. C.; Varela, José Arana

doi:10.1590/s0366-69132007000100015

Cited by 10 publications

(6 citation statements)

References 22 publications

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“…At the same time RE 3+ substitution for Zr 4+ in the t-ZrO 2 lattice requires charge compensation. The latter leads to the formation of oxygen vacancies, and as a consequence, different optical defect centers [34,35]. We suggest that these oxygen-related defects could serve as an additional energy sink capable of compensating the Tb-Yb energy gap, and one-to-one photon conversion cannot be completely excluded here.…”

Section: T-zro2mentioning

confidence: 87%

Devitrification Behavior of Sol-Gel Derived ZrO2-SiO2 Rare-Earth Doped Glasses: Correlation between Structural and Optical Properties

et al. 2018

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Optical and structural properties of glasses and glass-ceramics (GC) obtained by different heat-treatment of Tb and Tb-Yb doped sol-gel derived 30ZrO2-70SiO2 materials were investigated. A glass was formed after treatment at 700 °C whereas devitrification of the media after the treatment at 1000 and 1100 °C, led to the formation of GC containing up to three different crystalline phases, namely, tetragonal ZrO2, Yb-disilicate and cristobalite. The modification of the optical properties through the heat treatment was caused by redistribution of the rare earth elements (REE) among the different phases: both Tb and Yb entered the t-ZrO2 lattice, Yb can also be present in the form of a Yb2Si2O7 crystal. Devitrification led to an increase in Tb→Yb energy transfer efficiency as compared to the glass, though it was higher in the samples heat-treated at 1000 °C than in those treated at 1100 °C. The most intensive Yb3+ luminescence, induced by the energy transfer from the Tb3+ ion, was observed at the interface between t-ZrO2 and the glassy phases, due to the high concentration of REE in this area caused by the inability of ZrO2 to accept larger amounts of the REE. The mechanisms of the Tb→Yb energy transfer vary between different phases of the GC. The results obtained in this study are important for the development of spectral down-converters for potential solar energy applications based on Tb-Yb co-doped glass-ceramics.

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Section: T-zro2mentioning

confidence: 87%

Devitrification Behavior of Sol-Gel Derived ZrO2-SiO2 Rare-Earth Doped Glasses: Correlation between Structural and Optical Properties

et al. 2018

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“…Для материалов на основе диоксида циркония было показано, что кроме люминесценции, обусловленной катионами РЗМ, существует и люминесценция, обусловленная собственными дефектами материала [29][30][31][32][33][34][35]. Она имеет меньшую интенсивность, чем люминесценция РЗМ-катионов, но ее существование сомнений не вызывает.…”

Section: люминесценцияunclassified

“…Можно выделить несколько причин люминесценции в этих материалах. Первая связана с собственной дефектной структурой [29][30][31][32][33], что делает материалы данного структурного типа уникальными. Наблюдаемые эффекты имеют невысокую интенсивность и повышенную чувствительность к условиям эксперимента [34], и, по-видимому, из-за этого мало изучены.…”

Section: Introductionunclassified

Спектры комбинационного рассеяния света и фотолюминесценция диоксида гафния, допированного катионами Ho, Er, Tm, Yb, Lu и Y

Шкерин¹,

Мещерских²,

Ярославцева³

et al. 2022

Физика Твердого Тела

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Previously obtained and certified HfO2 based samples were investigated by two Raman spectrometers with different wave source. Stokes reflexes have to be independent of the laser frequency so they were distinguished by comparison of different laser results. For the first time the dependence of Stokes lines frequencies on the cation radii of dopants was observed. Frequencies monotonically varied with the ratio of cation-dopant to hafnium radii changes. All non-Stokes reflexes are considered as photoluminescence. They were compared with both the literature data on luminescence of REM cations and the experimental results on zirconia-based materials intrinsic photoluminescence, which was a property of its point defects. Intrinsic photoluminescence is observed for the first time on hafnia-based materials.

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“…There can be singled out several causes of luminescence in these materials. The first one is associated with its own defective structure [29][30][31][32][33], which makes materials of this structural type unique. The observed effects have low intensity and increased sensitivity to experimental conditions [34], and, according to it-seems that due-to this they have been poorly known.…”

Section: Introductionmentioning

confidence: 99%