Electrical and physicochemical properties of some Ag2O-containing lithia iron silica phosphate glasses

Abstract: The present paper reports the influence of Ag 2 O addition at the expense of Li 2 O on the local structure of xAg 2 OÁ(30 -x)Li 2 OÁ10Fe 2 O 3 Á10SiO 2 Á50P 2 O 5 glass matrix (with x = 0, 0.5, 1, 1.5 and 2 mol %). The phosphate structural units of the network former are assessed from Fourier transform infrared (FT-IR) spectroscopy. The addition of Ag 2 O to the glass network matrix B1 mol % leads to the occurrence of a depolymerization process of the phosphate structure and consequently, to the appearance of … Show more

“…The increase of mobility and diffusion of ions in the samples leads consequently to increase the conductivity. The different variations and combinations of concentrations of elements in the samples are responsible directly for the variation of the electrical properties in the sample [22, 23]. The highest conductivity values are found in the basalt sample (G0 with 100% of basalt) and the lowest conductivity values are found at sample G50 (with 50% of basalt).…”

Effect of CaO/SiO2 molar ratio on the electrical and physical properties of basaltic glass materials

“…The increase of mobility and diffusion of ions in the samples leads consequently to increase the conductivity. The different variations and combinations of concentrations of elements in the samples are responsible directly for the variation of the electrical properties in the sample [22, 23]. The highest conductivity values are found in the basalt sample (G0 with 100% of basalt) and the lowest conductivity values are found at sample G50 (with 50% of basalt).…”

Effect of CaO/SiO2 molar ratio on the electrical and physical properties of basaltic glass materials