Visible to infrared down conversion of Er3+ doped tellurite glass for luminescent solar converters

“…30,32,33,36 The intensity of the band at 745 cm −1 compared to the band at 664 cm −1 gives information on the number of TeO 3 units compared to TeO 4 units in the network and thus on the proportion of NBOs in the glass; the higher the band at 745 cm −1 as compared to the band at 664 cm −1 , the larger concentration of NBOs. 20,30,36,37 38 The FTIR spectra of the studied glasses are shown in Figure 1C. The spectra exhibit broad bands that can be related to OH groups.…”

“…The band located at 745 cm −1 is attributed to the symmetrical stretching of Te–O and Te = O bonds that contain non‐bridging oxygens (NBOs) in TeO 3 TP units and TeO 3+1 polyhedra 30,32,33,36 . The intensity of the band at 745 cm −1 compared to the band at 664 cm −1 gives information on the number of TeO 3 units compared to TeO 4 units in the network and thus on the proportion of NBOs in the glass; the higher the band at 745 cm −1 as compared to the band at 664 cm −1 , the larger concentration of NBOs 20,30,36,37 . Substituting Na 2 O by BaO and Bi 2 O 3 decreases the intensity of the band at 664 cm −1 compared to the main band indicating a larger amount of NBOs in these glasses.…”

Study of visible, NIR, and MIR spectroscopic properties of Er³⁺‐doped tellurite glasses and glass–ceramics

“…30,32,33,36 The intensity of the band at 745 cm −1 compared to the band at 664 cm −1 gives information on the number of TeO 3 units compared to TeO 4 units in the network and thus on the proportion of NBOs in the glass; the higher the band at 745 cm −1 as compared to the band at 664 cm −1 , the larger concentration of NBOs. 20,30,36,37 38 The FTIR spectra of the studied glasses are shown in Figure 1C. The spectra exhibit broad bands that can be related to OH groups.…”

“…The band located at 745 cm −1 is attributed to the symmetrical stretching of Te–O and Te = O bonds that contain non‐bridging oxygens (NBOs) in TeO 3 TP units and TeO 3+1 polyhedra 30,32,33,36 . The intensity of the band at 745 cm −1 compared to the band at 664 cm −1 gives information on the number of TeO 3 units compared to TeO 4 units in the network and thus on the proportion of NBOs in the glass; the higher the band at 745 cm −1 as compared to the band at 664 cm −1 , the larger concentration of NBOs 20,30,36,37 . Substituting Na 2 O by BaO and Bi 2 O 3 decreases the intensity of the band at 664 cm −1 compared to the main band indicating a larger amount of NBOs in these glasses.…”

Study of visible, NIR, and MIR spectroscopic properties of Er³⁺‐doped tellurite glasses and glass–ceramics

“…[1][2][3][4] Thus, a lot of works on luminescent rare-earth-doped tellurite glasses have been published [5][6][7][8][9] and a recent study is dedicated to development of downconversion phosphors of rare-earth-doped tellurite glasses for performance improvement of solar cells. [10] On the other hand, knowing the structural evolution of glasses is a difficult task that has sparked the interest of many researchers in the glass field. [11][12][13][14] In line with this topic, our group studied and published a detailed analysis of glassy local structure by means of Raman spectroscopy and X-ray absorption fine structure (XAFS) experiments on ternary TeO 2 -ZnO-Na 2 O (TZN)-based glasses.…”

High‐Temperature Investigation of TeO₂–Na₂O–ZnO Glasses

“…An extensive number of publications on the measurement of elastic properties of glasses, by using the ultrasonic non-destructive pulse-echo technique have been achieved [7][8][9]. The impact of the above finding is clear in the international scientific attention paid to tellurite glasses and the uses of these glasses in multifunctional applications like; visible to infrared down conversion of Er 3+ doped tellurite glass for luminescent solar converters and float, borosilicate, and tellurites as cover glasses in Si photovoltaics optical properties and performances under sunlight [10][11][12][13][14].…”

Atomic-Scale Observation of Room and Low-Temperature Ultrasonic Properties of Tellurite Glasses