基于溶解沉积机制锂硫电池的研究进展简评
Brief review of progress in lithium-sulfur batteries based on dissolution-deposition reactions
基于溶解沉积机制锂硫电池的研究进展简评 |
| 闫梦蝶, 李晖, 凌敏, 潘慧霖, 张强 |
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Brief review of progress in lithium-sulfur batteries based on dissolution-deposition reactions |
| Mengdie YAN, Hui LI, Min LING, Huilin PAN, Qiang ZHANG |
| 图1 几种不同锂(离子)电池的理论能量密度(注:能量密度计算基于正负电极活性物质质量。NCM811比容量210 mA·h/g,工作电压约3.8 V vs. Li;LFP比容量160 mA·h/g,工作电压约3.4 V vs. Li;石墨比容量360 mA·h/g 1,工作电压约0.1 V vs. Li;Li比容量3800 mA·h/g) |
| Fig.1 Comparison of energy density for different lithium (ion) battery chemistries. (Note: Energy density calculation is based on mass of cathode and anode active materials. NCM: 210 mA·h/g, ~3.8 V vs. Li; LFP: 160 mA·h/g, ~3.4 V vs. Li; graphite: 360 mA·h/g, ~0.1 V vs. Li; Li metal: 3800 mA·h/g) |
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