Transparent Glasses and Glass-Ceramics in the Ternary System TeO2-Nb2O5-PbF2

Barbosa, Juliana Santos; Batista, Gislene; Fargin, Evelyne; Cardinal, Thierry; Poirier, Gaël; Cassanjes, Fábia Castro

doi:10.3390/ma14020317

Cited by 14 publications

(8 citation statements)

References 56 publications

(46 reference statements)

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“…The higher the value of the asymmetry parameter, the lower the local site symmetry of the active ion, and the higher Eu–O covalence and emission intensity. The calculated higher R values (from 4.31 to 5.16), compared to the others reported in the literature ( Table 3 ) [ 18 , 42 , 43 , 44 , 45 , 46 , 47 , 48 ], suggest more asymmetry in the vicinity of Eu 3+ ions, stronger Eu–O covalence, and thus enhanced emission intensity.…”

Section: Resultscontrasting

confidence: 42%

“…The higher the value of the asymmetry parameter, the lower the local site symmetry of the active ion, and the higher Eu-O covalence and emission intensity. The calculated higher R values (from 4.31 to 5.16), compared to the others reported in the literature (Table 3) [18,[42][43][44][45][46][47][48], suggest more asymmetry in the vicinity of Eu 3+ ions, stronger Eu-O covalence, and thus enhanced emission intensity. Comparing the R values of the synthesized zinc borate glass without Nb 2 O 5 (4.31) and glass samples containing 1-5 mol% Nb 2 O 5 (4.89-5.16), it can be assumed that Nb 2 O 5 addition leads Eu 3+ to a high-asymmetry environment in the host, increasing the intensity of 5 D 0 → 7 F 2 transition.…”

Section: Luminescent Propertiesmentioning

confidence: 46%

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Structure and Luminescent Properties of Niobium-Modified ZnO-B2O3:Eu3+ Glass

Iordanova,

Milanova,

Yordanova

et al. 2024

Materials

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The effect of the addition of Nb2O5 (up to 5 mol%) on the structure and luminescent properties of ZnO-B2O3 glass doped with 0.5 mol% (1.32 × 1022) Eu2O3 was investigated by applying infrared (IR), Raman and photoluminescence (PL) spectroscopy. Through differential thermal analysis and density measurements, various physical properties such as molar volume, oxygen packing density and glass transition temperature were determined. IR and Raman spectra revealed that niobium ions enter into the base zinc borate glass structure as NbO4 tetrahedra and NbO6 octahedra. A strong red emission from the 5D0 level of Eu3+ ions was registered under near UV (392 nm) excitation using the 7F0 → 5L6 transition of Eu3+. The integrated fluorescence intensity ratio R (5D0 → 7F2/5D0 → 7F1) was calculated to estimate the degree of asymmetry around the active ion, suggesting a location of Eu3+ in non-centrosymmetric sites. The higher Eu3+ luminescence emission observed in zinc borate glasses containing 1–5 mol% Nb2O5 compared to the Nb2O5-free zinc borate glass evidences that Nb2O5 is an appropriate component for modifying the host glass structure and improving the emission intensity.

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Section: Resultscontrasting

confidence: 42%

Section: Luminescent Propertiesmentioning

confidence: 46%

Structure and Luminescent Properties of Niobium-Modified ZnO-B2O3:Eu3+ Glass

Iordanova,

Milanova,

Yordanova

et al. 2024

Materials

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“…Optical windows for the glass and composite-glass samples with their relative transparency in the UV-Vis-NIR-MIR were also determined between 350 and 7000 nm as resumed in Figure 4. First, the cut-off transparency limit of G1 glass is around 410 nm whereas G2 glass has a lower cut-off wavelength (λ) (~360 nm), in agreement with a higher ionic character of this latter composition and substitution of heavy elements by lighter ones 21,29 . For G1 compositeglass with 1 wt% of NC, short time of 5 minutes clearly decreases the transparency in the visible and near infrared range as previously expected by the translucent aspect of the sample (Table 1), once again suggesting the presence of NC dispersed in the whole sample with associated stronger scattering effects of the incident light.…”

Section: Resultsmentioning

confidence: 58%

“…On the other hand, in the G2 sample set, all samples are transparent but some NC aggregates can be noticed. Considering that larger particle/aggregate size decreases transparency and increases opacity 20,21 , it is inferred that longer times promote a higher dissolution of the NC in the glassy phase with related weaker light scattering effects and higher transparency. In a first approximation, NC melting is not expected at such conditions (630-775°C-5min) owing to the high LaNbO 4 melting point of 1650°C 19 .…”

Section: Resultsmentioning

confidence: 99%

Incorporation of as-Prepared Eu3+-doped Lanthanum Niobate Nanoparticles in Tellurite Glasses

Batista,

Mendoza,

Cassanjes

et al. 2023

Mat. Res.

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A direct-doping method was tested to design new composite-glasses by incorporating lanthanum niobate nanocrystals (NC) in tellurite glasses. NC powder were grinding with glass powder before heating-quenching, with the main investigation approached of best parameters for NC suitable homogenization but limited dissolution. Thermal analysis signalizes that prior heat-treatment of NC promotes higher transparency and limits NC dissolution. These materials with visually detectable NC aggregates exhibited glass transition temperatures close to the starting glass. LaNbO 4 phase was hardly detected by X-ray diffraction because of the low weight ratio and partial dissolution but the monoclinic polymorph could be identified for lower time. UV-visible-NIR transmission spectra also related progressive lower transparency with light scattering of NC aggregates. Photoluminescence suggest that lower times allowed to ensure the NC environment with lower crystallinity around Eu 3+ -ions in final composite-glass. These results pave the way for designing new materials containing NC not achievable by conventional nucleation-growth methods.

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“…The size of the ZnGa 2 O 4 nanocrystals presented in Figure 5 b was also checked according to the calculation by Scherrer’s Equation (1) [ 36 , 37 ]. The obtained results for 15ZnO_650 °C_3h and 15ZnO_650 °C_5h samples have been presented in Table 3 and Table 4 .…”

Section: Resultsmentioning

confidence: 99%

Structure and Luminescence Properties of Transparent Germanate Glass-Ceramics Co-Doped with Ni2+/Er3+ for Near-Infrared Optical Fiber Application

et al. 2021

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An investigation of the structural and luminescent properties of the transparent germanate glass-ceramics co-doped with Ni2+/Er3+ for near-infrared optical fiber applications was presented. Modification of germanate glasses with 10–20 ZnO (mol.%) was focused to propose the additional heat treatment process controlled at 650 °C to obtain transparent glass-ceramics. The formation of 11 nm ZnGa2O4 nanocrystals was confirmed by the X-ray diffraction (XRD) method. It followed the glass network changes analyzed in detail (MIR—Mid Infrared spectroscopy) with an increasing heating time of precursor glass. The broadband 1000–1650 nm luminescence (λexc = 808 nm) was obtained as a result of Ni2+: 3T2(3F) → 3A2(3F) octahedral Ni2+ ions and Er3+: 4I13/2 → 4I15/2 radiative transitions and energy transfer from Ni2+ to Er3+ with the efficiency of 19%. Elaborated glass–nanocrystalline material is a very promising candidate for use as a core of broadband luminescence optical fibers.

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Transparent Glasses and Glass-Ceramics in the Ternary System TeO2-Nb2O5-PbF2

Cited by 14 publications

References 56 publications

Structure and Luminescent Properties of Niobium-Modified ZnO-B2O3:Eu3+ Glass

Structure and Luminescent Properties of Niobium-Modified ZnO-B2O3:Eu3+ Glass

Incorporation of as-Prepared Eu3+-doped Lanthanum Niobate Nanoparticles in Tellurite Glasses

Structure and Luminescence Properties of Transparent Germanate Glass-Ceramics Co-Doped with Ni2+/Er3+ for Near-Infrared Optical Fiber Application

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