2017
DOI: 10.1016/j.jlumin.2016.11.019
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Chemical tunability of europium emission in phosphate glasses

Abstract: International audienceIn this study the correlation between bulk chemistry and optical properties for a set of Eu-bearing phosphate glasses, containing different alkali elements, synthetized in air and under NH3 flux, was investigated. The chemistry of the glass strongly influences several properties and the effects of bulk chemistry and synthesis conditions on glass structure and on thermal and optical properties are discussed. In alkali-phosphate glasses studied by absorption and photoluminescence spectrosco… Show more

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Cited by 22 publications
(10 citation statements)
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“…The emission of Eu 2+ is almost constant and centered at ≈413 nm when compared with data reported for alkali phosphate excited using the same excitation wavelength [49], it was found to be lower in our case. A relationship between optical basicity and Eu 2+ emission was proposed for phosphate, silicate, and borate glasses [35,49,50]; however, the current results show that tellurite glasses do not follow this relationship. Indeed, with an optical basicity almost double compared to silicates and phosphate, the Eu 2+ emission in tellurite is at almost the same position.…”
Section: Toward White Light Emissionsupporting
confidence: 72%
“…The emission of Eu 2+ is almost constant and centered at ≈413 nm when compared with data reported for alkali phosphate excited using the same excitation wavelength [49], it was found to be lower in our case. A relationship between optical basicity and Eu 2+ emission was proposed for phosphate, silicate, and borate glasses [35,49,50]; however, the current results show that tellurite glasses do not follow this relationship. Indeed, with an optical basicity almost double compared to silicates and phosphate, the Eu 2+ emission in tellurite is at almost the same position.…”
Section: Toward White Light Emissionsupporting
confidence: 72%
“…This can also been observed from the CIE color coordinate diagram (CCD) (Figure ). The 5 D 0 → 7 F 2 transition is very sensitive to the local environment around Eu 3+ and its higher intensity in comparison with the 5 D 0 → 7 F 1 indicates that Eu 3+ does not occupy sites with symmetry inversion. In order to understand better the occupied site, the emission parameters Ω 2 and Ω 4 were calculated as reported in the literature using an average index of refraction equal to 1.5.…”
Section: Resultsmentioning
confidence: 99%
“…3,73 The resulting glasses usually are transparent, and it should be noted that the nitrogen content increases with increasing temperature. 41,42,53,[74][75][76] Nevertheless, glasses turn black if the ammonolysis temperature is too high because of a reduction reaction of the phosphorus oxides. 71,73,77…”
Section: Ammonolysis Of Meltsmentioning
confidence: 99%
“…In the case of phosphorous oxynitride glasses, which were first reported in the early 1980s by Marchand, 71 phosphate salts such as NaPO 3 and LiPO 3 , 34,42,47,71,92,93,94 ammonium phosphates, 53,95 phosphoric acid 45 as well as phosphate oxide glasses are used as starting materials. Under NH 3 flowing gas, the threefold coordinated N 3− anions may subsequently result in the following oxidation reaction: N3120.28emN2+30.28eme$$\begin{equation} {\mathrm{N}}^{3-}\stackrel{}{\longrightarrow}\frac{1}{2}\;{\mathrm{N}}_{2}\nearrow +3\;{\mathrm{e}}^{-} \end{equation}$$which confers a reducing character to the oxynitride liquid that may promote the reduction of cations such as copper or silver to metals.…”
Section: Synthesismentioning
confidence: 99%
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