Effects of interstitial Li+ ions on the properties of novel Li4.08Zn0.04Si0.96O4 ceramic electrolyte

The aim of this work was to investigate the effects of interstitial ions in the novel Li_4 + 2xZn_xSi_1 ? xO₄ (x = 0.04) compound prepared via sol gel method. The compound was indexed to the monoclinic unit cell in the space group P2_1/m and the chemical composition of the compound was very close to the designed composition. The introduction of two interstitial Li⁺ ions increased charge carrier concentration in the doped system resulting in an enhancement of conductivity by an order of magnitude as compared to that of the parent compound, Li₄SiO₄. The compound of Li_4.08Zn_0.04Si_0.96O₄ exhibited total conductivity values of 2.51 × 10^? 5 S cm^? 1 at ambient temperature and 3.01 × 10^? 3 S cm^? 1 at 500 °C. Ionic transference number corresponding to Li⁺ ion transport was also found to be higher than the value obtained for the parent compound. This proved that interstitial Li⁺ ions contributed to the total conductivity in the sample. Linear sweep voltammetry result showed that the Li_4.08Zn_0.04Si_0.96O₄ ceramic electrolyte was electrochemically stable up to 5.80 V versus a Li/Li⁺ reference electrode.