Electrical behaviour of Li2O-ZnO-SiO2 glass and glass-ceramics system

Sealing quality lithium zinc silicate (LZS) glasses of compositions (wt.%) (a) LZSL- Li₂O: 12.65, ZnO: 1.85, SiO₂: 74.4, Al₂O₃: 3.8, K₂O: 2.95, P₂O₅: 3.15, B₂O₃: 1.2 (low ZnO), and (b) LZSH- Li₂O: 8.9, ZnO: 24.03, SiO₂: 53.7, Na₂O: 5.42, P₂O₅: 2.95, B₂O₃: 5 (high ZnO) were prepared by conventional melt-quench technique and converted to glass-ceramics by controlled crystallization process. The electrical properties of these samples were measured using ac impedance spectroscopy technique over a frequency range of 10 Hz-15 MHz at several temperatures in the range of 323-673 K. The ac conductivity, dc conductivity, dielectric constant and loss factor were obtained from these measurements. The dc conductivity (σ_dc) follows the Arrhenius behaviour with temperature. It is observed that σ_dc in LZSL glass is significantly higher than in the LSZH glass and the activation energies for σ_dc for LZSL and LZSH glasses are 0.59 and 1.08 eV, respectively. It further observed that the conductivity value decreases nearly one order of magnitude on conversion to glass-ceramics. The behaviour is explained on the basis of distributions and nature of alkali ions and network structures in these samples.