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

Brief review of progress in lithium-sulfur batteries based on dissolution-deposition reactions

Mengdie YAN, Hui LI, Min LING, Huilin PAN, Qiang ZHANG

图5 锂负极与金属锂电池失效的关系。(a)金属锂溶解-沉积过程的形貌和结构变化示意图。Li‖NCM电池在不同电解液量；(b)和不同N/P比例；(c)条件下的循环性能（NCM电极：3.8 mA·h/cm2; C-rate: C/3；电压：2.7~4.4 V）；(d) 50 μm金属锂循环后SEM。图片复制许可来自Nature Springer 2019

Fig.5 Relation between lithium metal and cell failure of lithium metal batteries. (a) Illustration of morphology and structure evolution during repeated lithium dissolution-deposition process. Cycling behavior of Li‖NCM cell under different electrolyte usage; (b) and lithium thickness; (c) (NCM electrode: 3.8 mA·h/cm2, C-rate: C/3, Voltage: 2.7~4.4 V); (d) SEM image of 50 μm lithium metal after cycling. Reproduced figures, permissions from Nature Springer 2019