Glass formation and electrical conductivity studies of melt quenched and mechanically milled 50Li2O:(50 − x) P2O5:xB2O3

Investigations on the glass system mol% 50Li2O:(50 − x)P2O5:xB2O3 reveal that the glass forming region is limited to a small region of 0 ≤ x ≤ 20. Addition of B2O3 is found to enhance the thermal stability of the glasses. Raman spectra reveal that the glass matrix undergoes structural modification for x ≥ 15, with the formation of borophosphate structural units, due to the presence of which, the glass composition 50Li2O: 30P2O5: 20B2O3 has exhibited dc conductivity value of 1.8 × 10− 5 S cm− 1, when compared to the value of 8.4 × 10− 7 S cm− 1 of 50Li2O: 50P2O5 at 110 °C. Though ball milled sample for x = 15 initially exhibited better conduction characteristics than melt quenched ones, the conductivity decreased during thermal cycling process probably due to the phase instability of the milled samples. The frequency dependent conductivity plots have been scaled to a single master curve indicating temperature independent relaxation mechanism.