The equivalent for electric cars is the lithium-ion battery, or Li-ion.
对电力汽车来讲,这一革新将是锂离子电池。
Due to the low cost of the battery cells and excellent performance at ambient temperature, Lithium-ion (Li-ion) battery is a promising technology for propulsion applications.
由于此蓄电池的低成本和在环境温度下的优秀性能,锂电池将会在推进力应用的技术上有广泛的前途。
Lithium iron phosphate material can also be used to improve the reliability of Li-ion batteries, however they have an energy storing capability lower than that of traditional Li-ion batteries.
磷酸锂也能增强锂离子电池的稳定性,但是它们会使电池的储电能力比传统的低。
The spinel manganic acid lithium is promising to be cathodes for Li-ion battery, due to its relatively high energy density and low toxicity.
尖晶石型锰酸锂具有无毒、能量密度高等特点,是下一代锂离子电池最有前途的正极材料之一。
Cyclic voltammograms indicate that the Li-contained phosphates can serve as cathode materials for lithium ion batteries.
循环伏安研究表明,含锂磷酸盐是一类有潜力的锂离子电池正极材料。
From the aspects of organic solvents, lithium salts and additives, research progress of the non-aqueous organic electrolyte for Li-ion batteries is reviewed.
从有机溶剂、电解质锂盐、添加剂三个方面,论述了锂离子电池的电解液研究进展情况。
In accordance with the conventional production process, the loss of lithium is often about 7%, when Al-Li alloy is melted in graphite crucible.
根据生产经验,用石墨坩埚熔炼铝锂合金,锂的损失一般稳一在7%左右。
A series of Cu Li alloys with different contents of lithium have been obtained by means of vacuum induction furnace at Ar atmosphere .
用真空保护气氛熔炼不同锂加入量的铜锂合金,得到系列表面光滑、内部致密的铜锭,并研究了锂对工业纯铜凝固特性的影响。
We also produce disposable Lithium cell, Li-ion battery, zinc-air battery, nickel-zinc battery (under development), battery power management circuit, battery charger, e-bike, power tool, etc.
此外,公司还生产有一次性锂电池、锂离子电池、锌空气电池、镍锌电池(开发)、电池电源管理器、充电器、电动自行车、电动工具等产品。
The invention discloses a lithium iron phosphate li-ion battery, comprising an anode, a cathode, a separator, an electrolyte and a battery shell.
一种磷酸铁锂锂离子电池,包括正极、负极、隔膜、电解液与电池外壳。
Rechargeable Li-ion, Lithium, Ni-MH, Ni-Cr, Alkaline battery or cells.
可充电锂电池,镍氢电池,镍铬,碱性电池或电芯。
Concerning the defect research on lithium niobate crystals, some important defect models and the Nb-site-dependent and Li-site-sensitive model are summarized in this paper.
针对铌酸锂晶体中的缺陷研究,本文总结了国内外学者提出的不同晶体缺陷模型及各自的特点,并介绍了我们提出的铌位依赖、锂位敏感模型。
Concerning the defect research on lithium niobate crystals, some important defect models and the Nb-site-dependent and Li-site-sensitive model are summarized in this paper.
针对铌酸锂晶体中的缺陷研究,本文总结了国内外学者提出的不同晶体缺陷模型及各自的特点,并介绍了我们提出的铌位依赖、锂位敏感模型。
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