锂硫电池正极材料的研究进展 - 电源工业 关键词:锂硫电池;复合材料;比容量;循环性能 [gap=956]Keywords: lithium-sulfur batteries; composite materials; specific capacity; cycle performance
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锂离子电池边角料中直接回收合成LiCoO 关键字: LiCoO2;回收;合成;放电容量;循环性能[gap=1213]Key words: LiCoO2; recycle; synthesis; discharge performance; cycling performance
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...子电池;循环性能[gap=1376]microbeads; electroless plating silver; discharge capacity; lithium ion battery; cycling ability...
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The rate discharge performance and cycle performance was fine.
电池具有较好的倍率性能和循环性能。
参考来源 - 锂离子电池高倍率放电性能的影响因素It was also found that the specific capacity and cycling performance of LiVPO4F vary with synthesis conditions, while the charge-discharge curves are similar.
不同条件下合成LiVPO4F的充放电曲线相似,但比容量各不一样,循环性能差异很大。
参考来源 - 锂离子电池正极材料LiVPOAfter the heat treatment of electrode, the cyclic performance can be improved.
对电极片热处理后复合材料的循环性能有进一步的提高。
参考来源 - 碳包覆硅基复合材料的制备及电化学性能研究The crystal structure of spinel is stabilized by Cr-doping and the account of dissolved Mn lessened in electrolyte, thus improve the storage performance and cyclability of electrode material.
掺Cr后稳定了尖晶石的晶体结构,使得电解液中溶解的Mn量减小,从而改善了电极材料高温下的循环性能。
参考来源 - 锂离子电池正极材料尖晶石型LiMnThe as-synthesized porous ZnCo2O4 nanowires have been applied as anode materials of Li-ion batteries, which show superior capacity and cycling performance.
ZnCo2(C2O4)3纳米线应用在锂电池电极材料上,表现出了高容量和高循环性能。
参考来源 - 利用草酸盐模板制备金属与氧化物纳米线及其应用Moreover,α/βmutually embedded nickel hydroxide has better cyclic performance.
同时,α/β互嵌结构氢氧化镍还具有较好的循环性能。
参考来源 - α/β互嵌氢氧化镍电极活性材料的结构和电化学性能·2,447,543篇论文数据,部分数据来源于NoteExpress
循环性能争论的源头是应当选用哪种循环。
A constant source of debate regarding loop performance is which loop to use.
提高循环性能的方法很简单,甚至不需多加一行代码(见清单9)。
Improving the performance of this loop is very simple and doesn't even require an additional line of code (see Listing 9).
在一定的配比范围内对混合物进行了循环性能和可燃性分析。
The cycle performance and flammability of mixed refrigerants with different mixing ratios were analyzed.
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