A lithium ion conductive solid electrolyte,L2O-Al2O3-TiO2-SiO2-P2O5 glass with NASICONtype structure have been synthesized and transformed into glass-ceramic through thermal-treatment at various temperatures from 700 to 1 000 ℃ for 12 h.The differential scanning calorimetry (DSC),X-ray diffraction (XRD),scanning electron microscopy (SEM) and complex impedance techniques were employed to characterize the samples.The experimental results indicated that the capability of glass forming in this system is superior to that of L2O-Al2O3-TiO2-P2O5.The glass has an amorphous structure and resultant glass-ceramic mainly consisting of LiTi2(PO4)3 phases.Impurity phases AlPO4,TiO2,TiP2O7 and unidentified phase were observed.With the enhanced heat-treatment temperature,grain grew gradually and lithium ion conductivity of glass-ceramics increased accordingly,the related impedance semicircles were depressed gradually and even disappeared,which could be analytically explained by the coordinate action of the ‘Constant phase element' (CPE) model and the ‘Concept of Mismatch and Relaxation' model (CMR).When the sample is devitrified at 1000 ℃,the maximum room temperature lithium ion conductivity comes up to 4.1 ×10-4 S/cm,which is suitable for the application as an electrolyte of all-solid-state lithium batteries.
参考文献
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