锂电池大致可分为两类:锂金属电池和锂离子电池。
Lithium batteries fall into two broad classifications; lithium metal batteries and lithium ion batteries.
其中有碱性锌锰电池、锂一次电池及小型可充电镉镍电池、氢镍电池和锂离子电池。
Among them, there are alkaline zinc manganese batteries, lithium batteries, small rechargeable cadmium nickel batteries, hydrogen nickel batteries and lithium ion batteries.
与锂-铁磷酸盐一样,其他新型材料已经用到了电池的三个主要部件,阳极、阴极和电解液。
As well as lithium-iron phosphate, other innovative materials have been used for the three main battery components of anode, cathode and electrolyte.
与此同时,生产电瓶车车用蓄电池所使用的锂和钴等材料又大多从美国境外采购。
Meanwhile, materials such as lithium (PDF) and cobalt used in the manufacture of batteries for rechargeable vehicles are largely sourced outside the United States.
经由团队研究证实,将阳极和阴极结合在一起时,锂硫电池的续航力将是一般锂电池至少四倍之多,而且比现在的锂电池更为安全。
Together, the anode and cathode could yield a battery that lasts four times as long and is significantly safer than existing lithium-ion batteries.
这种技术使用了与先前不同的方法和技术,能用于锂基和镍基电池。
The good news is that it uses a completely different approach and technology than the previous effort, and can work with both lithium- and nickel-based batteries.
详细地叙述了锂在玻璃陶瓷工业、铌工业、真空焊接、润滑脂生产和电池工业等领域的新应用。
It describes in detail the new applications of lithium in fields of glasses and ceramic industries, aluminium industry; vacuum soldering, lubricant production and cell industry etc.
从导电锂盐、有机溶剂和添加剂三个方面详细综述了锂离子电池用有机电解液的研究进展。
In this paper, progress in research on organic liquid electrolytes used in lithium-ion batteries, such as conducting lithium salt, organic solvent and additives, is reviewed.
锂二次电池有机硫化物电极材料包括有机二硫化物、有机多硫化物和硫化聚合物等。
The organic sulfides electrode materials for lithium secondary batteries include organodisulfide, orga- nomultisulfide, sulfurized polymers, etc.
用于锂二次电池的负极活性物质,其制备方法,包括它的负电极和包括它的锂二次电池。
Negative active material for lithium secondary battery, method for preparing the same, negative electrode comprising the same, and lithium secondary battery comprising same.
通过三电极电池研究发现,锂离子电池在低温充电过程中出现的金属锂的沉积与电解液种类、充电倍率和截止电压等因素有关。
We found by the three-electrode experimental cell, deposition of metallic lithium during low-temperature charging is related to electrolyte, charging rate, cut-off voltage and so on.
本身就作为锂铁电池厂商的索尼和东芝,在新一代电池方面又热情不足。
Sony and Toshiba, which both make lithium ion batteries, are a little less hot on the new battery category.
过渡金属化合物由于具有较高的储锂容量和崭新的储能机理,成为近些年锂离子电池负极材料中的研究热点。
Transition metal compound has been the focus as anode material in lithium ion battery since it has high lithium storage capacity and new energy storage mechanism.
这种胶态电解质抑制了锂硫电池中单质硫本身和正极活性物质的放电产物多硫化物的溶解。
The gelled polymer electrolyte helped to restrain the solution of polysulfides produced from discharging product and the sulfur itself in the active material of cathode.
复合聚合物电解质的机械性能和电化学性能都有较大的提高,有利于实现锂蓄电池的商品化。
Composite polymer electrolytes had better mechanical and electrochemical properties, which were benefit for the commercialization of rechargeable lithium batteries.
通过交流阻抗方法研究了熔融碳酸盐燃料电池阴极材料锂镍氧化物、锂钴氧化物和锂铁氧化物的导电性能。
The conductivity of cathode materials for molten carbonate fuel cell (MCFC), such as lithium nickel oxide, lithium cobalt oxide and lithium ferrite oxide, was studied by AC impedance measurement.
本文介绍了世界上主要公司的电动车和混合电动车用锂聚合物蓄电池进展和性能水平以及装锂聚合物蓄电池的电动车情况。
This paper introduces the proceeding and performance level of Lithium Polymer batteries for ev and HEV made by major companies in the world, and ev or HEV with Lithium Polymer batteries.
介绍了锂离子电池电解质锂盐的化学和电化学。
The chemistry and electrochemistry of lithium electrolyte salts are introduced.
一种在室温下经过湿法冶金工艺处理所有类型的锂阳极电池组和电池的方法。
A method for treating all types of lithium anode batteries and cells via a hydrometallurgical process at room temperature.
本申请涉及用于锂离子可再充电电池的电解液和包括该电解液的锂离 子可再充电电池。
The present invention relates to an electrolyte for a lithium ion rechargeable battery and a lithium ion rechargeable battery including the same.
电化学电池,更具体地说,包括锂负极和二硫化铁正极的电池。
Electrochemical battery cells, and more particularly, to cells comprising a lithium negative electrode and an iron disulfide positive electrode.
发现嵌锂碳与溶剂、电解液热分解和正极热分解反应是诱发电池高温加热时爆炸的主要原因;
The main heat sources of lithium batteries were tested and the explosion mechanism was analyzed under oven test, overcharge test and short-circuit.
提出了一种基于物理方法把废旧锂离子电池的成分,包括钴酸锂、铜铝箔、隔膜和电解液等分离的方法。
A process based on physical methods to separate the components of spent Li-ion battery, such as LiCoO2, copper-aluminum foil, separator and electrolyte, was described.
本发明涉及锂离子电池电解液。可再充电的锂离子电池包括阳极、阴极和包含一种或多种分散的锂盐的电解液。
A rechargeable lithium-ion battery includes an anode, a cathode and an electrolyte containing one or more dispersed lithium salts.
锂固体电解质作为全固态锂离子电池的重要组成部分,包括锂有机聚合物固体电解质和锂无机固体电解质两大类。
Li-ion solid electrolytes is the important part of the Li-ion battery. There are two types of Li-ion solid electrolytes: organic polymer solid electrolyte and inorganic solid electrolyte.
锂固体电解质作为全固态锂离子电池的重要组成部分,包括锂有机聚合物固体电解质和锂无机固体电解质两大类。
Li-ion solid electrolytes is the important part of the Li-ion battery. There are two types of Li-ion solid electrolytes: organic polymer solid electrolyte and inorganic solid electrolyte.
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