Title of article
Lithium ion conductivity, crystallization tendency, and microstructural evolution of LiZrxTi2-x(PO4)3 NASICON glass-ceramics (x = 0 - 0.4)
Author/Authors
Goharian ، Parisa Ceramic Department - Materials and Energy Research Center (MERC) , Aghaei ، Alireza Ceramic Department - Materials and Energy Research Center (MERC) , Eftekhari Yekta ، Bijan School of Metallurgy and Materials Engineering - Iran University of Science and Technology , Banijamali ، Sara Ceramic Department - Materials and Energy Research Center (MERC)
From page
67
To page
72
Abstract
In this research, NASICON type (LiZrxTi2-x(PO4)3) glass-ceramics were fabricated (x = 0.1, 0.2, 0.3, and 0.4). Lithium-ion conductivity along with the crystallization tendency and microstructural features were examined in this regard. Parent glasses obtained through melt quenching were converted to the glass-ceramic specimens after one-step heat treatment procedure. The resultant glass-ceramics were deeply explored by means of different techniques including scanning electron microscope, differential thermal analysis, X-ray diffractometry, and ionic conductivity measurements. According to the obtained results, presence of Zr4+ ions in the glass network and its gradual increase caused the enhanced crystallization temperature as well as declined crystallinity and microstructure coarsening. In all studied glass-ceramics, LiT2(PO4)3 solid solution was the dominant crystalline phase and Zr4+ ions partly substituted in the structure of this crystalline phase. Moreover, presence of Zr4+ ions in the glass composition resulted in diminished lithium-ion conductivity of corresponded glass-ceramics at ambient temperature. Consequently, total conductivity of specimen with the highest level of ZrO2 (x = 0.4) was measured to be 0.78 × 10-5 Scm-1, being considerably less than ionic conductivity of the base (x = 0) glass-ceramic (3.04 × 10-5 Scm-1). It seems that less crystallinity of ZrO2 containing glass-ceramics decreases required connectivity between the lithium-ion free paths and is responsible for the diminished ionic conductivity of these specimens.
Keywords
Glass , ceramic , Crystallization , Ionic conductivity , Zirconium ions , NASICON
Journal title
Synthesis and Sintering
Journal title
Synthesis and Sintering
Record number
2772736
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