2020
DOI: 10.1116/6.0000567
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Photoluminescence, thermoluminescence, and cathodoluminescence of optimized cubic Gd2O3:Bi phosphor powder

Abstract: Cubic Gd2 − xO3:Bix phosphor powders were prepared with a combustion method and the effect of different annealing temperatures and dopant concentration on the photoluminescence (PL), thermoluminescence (TL), and cathodoluminescence (CL) were investigated. A single-phase cubic crystal structure with the Ia3¯ space group was formed. The average crystallite size increased and decreased, respectively, with an increased annealing temperature and an increased Bi3+ doping concentration. Absorption bands at 250, 275, … Show more

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Cited by 10 publications
(7 citation statements)
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“…Where Gd2-0.02In0.02O3 (2 at %) have the largest grain size between the doped samples and exhibits a better crystallinity compared to the others. So, the decrease of the mean crystallite size of our layers can be explain by the difference in the size of the radius between Gd 3+ ions (0.938 Å) and In 3+ ions (0.80 Å) where it may have caused a stress "ε ", leading to a disturbance in the crystallite growth kinetics [12].…”
Section: X-ray Diffraction Resultsmentioning
confidence: 94%
See 1 more Smart Citation
“…Where Gd2-0.02In0.02O3 (2 at %) have the largest grain size between the doped samples and exhibits a better crystallinity compared to the others. So, the decrease of the mean crystallite size of our layers can be explain by the difference in the size of the radius between Gd 3+ ions (0.938 Å) and In 3+ ions (0.80 Å) where it may have caused a stress "ε ", leading to a disturbance in the crystallite growth kinetics [12].…”
Section: X-ray Diffraction Resultsmentioning
confidence: 94%
“…Gadolinium oxide is an n-type semiconductor, large band gap, high order of transparency and high dielectric constant allowing him to be used firstly as thin film in optoelectronic devices [5], alternative gate dielectric of SiO2 [6], spectral converter [7]. Secondly as nanoparticles in biomedical domain as a contrast agent for imaging [8] either in its undoped form or by introducing some doping elements to Gd2O3 matrix such as Yb 3+ [9] Eu 3+ [10] Tb 3+ [11] Bi 3+ [12] toward investigating and refining the thin film properties to each desirable applications cited before.…”
Section: Introductionmentioning
confidence: 99%
“…The thermoluminescence glow curve corresponds to the intensity of light emitted versus temperature and the TL glow curve/peak is essentially associated with various traps and the recombination centers existing in the phosphor material. 44–46 The structure of the glow curve, such as the shape of the glow peak, glow peak temperature and intensity are substantially affected by certain factors such as the type of lanthanide dopant/impurity content, their concentration, annealing temperature, and the crystallinity of the material. 47–49 Therefore, the investigation of the influence of these mentioned parameters as dopants and annealing temperature on the glow curve structure is of particular significance in the research area of developing novel TL dosimetric materials.…”
Section: Resultsmentioning
confidence: 99%
“…Among numerous luminescent materials proposed for use as temperature probes, semiconductor nanodots and organic molecules are often selected but are unsuitable for use in TEM as the high-energy electron beam incident on the luminescent probes facilitates their rapid degradation. In contrast, oxide particles doped with rare-earth ions are stable in aggressive chemical media, at high temperatures, and under ionizing radiation, , rendering them promising candidates for use in in situ temperature measurements in TEM.…”
Section: Introductionmentioning
confidence: 99%
“…Here, we propose using the nanoparticles of a heavy-metal oxide doped with europium ions (Eu 3+ ) to accurately and precisely measure in situ temperatures with a spatial resolution toward nanometers. We used gadolinium oxide (Gd 2 O 3 ) nanoparticles that have been reported as an efficient temperature probe in photoluminescence (PL) thermometry with a superior resistance to electron-beam-induced damage . We propose a ratiometric approach, which is based on the thermally induced changes in the intensities of different emission bands and widely used in optical thermometry. , This method exhibits potential for use in applications in multiple types of in situ TEM studies to monitor the temperature evolution or thermal properties of materials at the nano- and microscales.…”
Section: Introductionmentioning
confidence: 99%