NASICON结构钠离子固体电解质及固态钠电池应用研究进展
Research progress on NASICON-structured sodium solid electrolytes and their derived solid state sodium batteries
NASICON结构钠离子固体电解质及固态钠电池应用研究进展 |
| 杨菁, 刘高瞻, 沈麟, 姚霞银 |
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Research progress on NASICON-structured sodium solid electrolytes and their derived solid state sodium batteries |
| Jing YANG, Gaozhan LIU, Lin SHEN, Xiayin YAO |
| 图 7 金属钠负极和NASICON固体电解质之间物理接触的图解:(a) 金属钠负极和NASICON固体电解质之间差的接触会导致不均匀的沉积和电池短路;(b) 金属钠-SiO2复合物和NASICON固体电解质之间紧密接触可稳定固-固界面[ |
| Fig. 7 Schematic of the physical contact between Na metal anode and NASICON solid electrolyte (a) poor physical contact between pure Na metal and NASICON SE will lead to non-uniform plating and rapid short-circuit of the cell, while (b) the intimate contact between Na-SiO2 composite and NASICON SE facilitates a close physical contact and a stabilized solid-solid interface[ |
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