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4th International Conference on Civil and Environmental Engineering for Sustainability
Review on Material Synthesis and Characterization of Sodium (Na) Super-Ionic Conductor (NASICON)
地球科学;生态环境科学;经济学
Kimpa, M.I.^1,2,3 ; Mayzan, M.Z.H.^1,2 ; Yabagi, J.A.^1,2,4 ; Nmaya, M.M.^1,2,4 ; Isah, K.U.^3 ; Agam, M.A.^1,2
Department of Science, Faculty of Applied Sciences and Technology, Bandar University, Pagoh, Johor
84600, Malaysia^1
Universiti Tun Hussein Onn Malaysia, Pagoh, Johor
84500, Malaysia^2
Department of Physics, School of Physical Sciences, Federal University of Technology Minna, P.M.B 65, Niger State, Minna, Nigeria^3
Department of Physics, Faculty of Science, Ibrahim Badamasi Babangida University Lapai, P.M.B. 10, Lapai, Niger State, Nigeria^4
关键词: Essential characteristic;    Lithium ion rechargeable batteries;    Low thermal expansion;    Nuclear waste immobilization;    Rhombohedral crystals;    Sodium-zirconium phosphates;    Super ionic conductors;    Three-dimensional structure;   
Others  :  https://iopscience.iop.org/article/10.1088/1755-1315/140/1/012156/pdf
DOI  :  10.1088/1755-1315/140/1/012156
学科分类:环境科学(综合)
来源: IOP
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【 摘 要 】

Sodium (Na) Super Ionic Conductor (NASICON) has general formula Na1+xZr2P3-xSixO12(0 ≤x ≤ 3) derived from its parent compound, sodium zirconium phosphate NaZr2(PO4)3(NZP) which belong to a rhombohedral crystal structure. This material consists of three-dimensional structure with interesting features such as low thermal expansion coefficient, thermal stability, gas sensor and nuclear waste immobilization that make it viable for industrial applications. Current study presents comprehensive studies on the synthesis and essential characteristics required to understand the theory behind the mechanism that justifies the study of NASICON structure and its application such as lithium ion rechargeable battery, gas sensor, and nuclear waste immobilization and so on.

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