<strong>NASICON</strong>结构钠离子固体电解质及固态钠电池应用研究进展

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

Research progress on NASICON-structured sodium solid electrolytes and their derived solid state sodium batteries

Jing YANG, Gaozhan LIU, Lin SHEN, Xiayin YAO

表2 不同离子取代固体电解质离子电导率对比

Table 2 Comparison of ionic conductivity of different ion substituted solid electrolytes

化学分子式	取代离子	离子电导率 /S·cm^-1	参考文献
Na_3.4Zr_1.8Ca_0.2Si₂PO₁₂	Ca²⁺	1.7×10^-3 (25 ^oC)	[33]
Na_3.4Zr_1.8Co_0.2Si₂PO₁₂	Co²⁺	1.6×10^-3 (25 ^oC)	[39]
Na_3.36Zr_1.92Cu_0.08Si_2.2P_0.8O₁₂	Cu²⁺	5.3×10^-4 (RT)	[21]
Na_3.1Zr_1.95Mg_0.05Si₂PO₁₂	Mg²⁺	3.5×10^-3 (RT)	[38]
Na_3.1Zr_1.95Mg_0.05Si₂PO₁₂	Mg²⁺	1.3×10^-3 (RT)	[57]
Na_3.46Zr_1.9Mg_0.1Si_2.23P_0.77O₁₂	Mg²⁺	2.4×10^-3 (25 ^oC)	[15]
Na_3.256Zr_1.872Mg_0.128Si₂PO₁₂	Mg²⁺	2.1×10^-3 (25 ^oC)	[34]
Na_3.256Zr_1.872Mg_0.128Si₂PO₁₂	Mg²⁺	1.4×10^-3 (25 ^oC)	[58]
Na_3.4Zr_1.8Ni_0.2Si₂PO₁₂	Ni²⁺	6.2×10^-4 (25 ^oC)	[39]
Na_3.2Zr_1.8Al_0.2Si₂PO₁₂	Al³⁺	4.4×10^-4 (25 ^oC)	[39]
Na_3.2Zr_1.8Fe_0.2Si₂PO₁₂	Fe³⁺	7.5×10^-4 (25 ^oC)	[39]
Na_3.1Zr_1.9La_0.1Si₂PO₁₂	La³⁺	1.1×10^-3 (RT)	[40]
Na_3.1Zr_1.9Nd_0.1Si₂PO₁₂	Nd³⁺	6.9×10^-4 (RT)	[40]
Na_3.4Sc₂Si_0.4P_2.6O₁₂	Sc³⁺	6.9×10^-4 (25 ^oC)	[37]
Na_3.4Zr_1.6Sc_0.4Si₂PO₁₂	Sc³⁺	4.0×10^-3 (25 ^oC)	[35]
Na_3.1Zr_1.9Y_0.1Si₂PO₁₂	Y³⁺	6.3×10^-4 (RT)	[40]
Na₃Zr_1.88Y_0.12Si₂PO_11.94	Y³⁺	2.5×10^-3 (RT)	[49]
Na₃Zr_1.9Ce_0.1Si₂PO₁₂	Ce⁴⁺	9.0×10^-4 (25 ^oC)	[47]
Na₃Zr₂Si_1.85Ge_0.15PO₁₂	Ge⁴⁺	1.4×10^-3 (25 ^oC)	[15]
Na_3.4Zr₂Si_2.4P_0.6O₁₂	Si⁴⁺	5.0×10^-3 (25 ^oC)	[36]
Na_3.2Hf₂Si_2.2P_0.8O₁₂	Hf⁴⁺，Si⁴⁺	2.3×10^-3 (25 ^oC)	[41]
Na_3.325Zr_1.9375Mg_0.0625Si_2.2P_0.8O₁₂	Mg²⁺，Si⁴⁺	2.7×10^-3 (25 ^oC)	[34]