基于氧化物固态电解质的储能钠电池的研究进展
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王进芝, 韩晓蕾, 许超锋, 赵井文, 唐越, 崔光磊
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Research progress of sodium energy storage batteries using oxide solid-state electrolytes
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Jinzhi WANG, Xiaolei HAN, Chaofeng XU, Jingwen ZHAO, Yue TANG, Guanglei CUI
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表1 不同氧化物固态电解质的离子电导率
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Table 1 Ionic conductivity of different oxide solid electrolytes
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| 类型 | 材料组成 | 离子电导率 /(S/cm) | 参考 文献 |
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| β/β″-Al2O3 | β″-Al2O3 | 0.2~0.4 (300 ℃) | [8] | | β″-Al2O3 + 0.4% MgO | 0.264 (400 ℃) | [10] | | β″-Al2O3 + 1% TiO2 + 10% ZrO2(质量分数) | 0.2 (350 ℃) | [11] | | β″-Al2O3 + 1.5% Ti + 10% Fe(摩尔分数) | 0.16 (350 ℃) | [12] | | β″-Al2O3 + 1% Nb2O5(质量分数) | 0.153 (300 ℃) | [13] | | β″-Al2O3 + 0.25% NiO(质量分数) | 0.066 (350 ℃) | [14] | | NA-SICON | Na3Zr2Si2PO12 | 6.7×10-4 (RT) | [16] | | Na3.4Sc0.4Zr1.6Si2PO12 | 4×10-3 (RT) | [17] | | Na3.1Zr1.95Mg0.05Si2PO12 | 3.5×10-3 (RT) | [18] | | Na3.3Zr1.7La0.3Si2PO12 | 3.4×10-3 (RT) | [19] | | Na3Zr1.9Yb0.1Si2PO12 | 2.3×10-3 (RT) | [20] | | Na3Zr1.9Zn0.1Si2.2P0.8O12 | 5.27×10-3 (RT) | [21] |
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