The surface variations of lithium electrode during charge processes were investigated by in situ optical microscopic observation and impedance measurement.
锂电极的表面变化通过原位显微镜观测和交流阻抗谱进行检测。
The invention also aims to provide a metallic lithium electrode whose surface is covered in a film of metallic oxide particles, as well as a lithium metal-type battery.
本发明还涉及锂金属电极,其表面覆盖金属氧化物颗粒的膜,还涉及锂金属型电池。
They designed an electrode made from porous carbon and lithium oxide.
他们设计出的电极由多孔碳和锂氧化物制成。
They exposed one side of their porous carbon electrode to an electrolyte rich in lithium ions and put a mesh window on the other side of the electrode through which air could be drawn.
他们把含有多孔碳的电极暴露在富含锂离子的电解质中并在电极的另一端放置一个隔栅用以吸入空气。
A battery's electrolyte is the material through which ions (in this case lithium ions) pass from one electrode (the cathode) to another (the anode) inside a battery cell.
电池的电解质能让离子(此处为锂离子)自电池内部从一个电极(负极)传递到另一个(正极)。
The new material has such high energy density because it can operate at a higher voltage than current electrode materials and also store more lithium ions.
这种新材料具有高能量密度,因为它能够以比目前更高的电压的电极材料储存更多的锂离子个单一的百分比数字。
As the battery discharges, the lithium ions swim from the negative-electrode lattice to the positive one; during recharging, they swim back again.
当电池放电的时候,锂离子从负极栅格游到正极栅格;充电时它们游回来。
Because of this flexibility, researchers hope to develop new electrode materials that can increase the energy density of lithium-ion batteries by a factor of two or more in the future.
因为具有这种弹性,研究者们期待能开发出新的电极材料,未来也许可以把锂离子电池的能量密度提高2倍或以上。
A full-scale lithium battery made with the electrode could be charged to 75 percent within a minute, and hit 90 percent within two minutes.
完全用这种电极制作的锂电池,能做到1分钟充满75%的电量,充满90%的电量只需要2分钟。
The dendrite problem, meanwhile, can be ameliorated by adding carbon to the electrode where the lithium is deposited.
至于树突的问题,可以向锂离子所在的电极中添加碳得以改善。
The first commercial lithium-ion battery, launched by Sony in 1991, was a rocking-chair design that used cobalt oxide for the positive electrode, and graphite (carbon) for the negative one.
1991年,Sony发布了第一款商用锂离子电池,它采用的就是摇椅式设计,其中用钴氧化物做正极,石墨(碳 )做负极。
Electrode materials, electrolyte and separator are important parts of lithium-ion batteries, which can influence the performance of battery directly.
电极材料、电解质和隔膜是锂离子电池重要组成部分,直接影响电池的性能。
Lithium metal is the most promising anode material because of its most negative normal electrode potential and the highest specific energy.
金属锂具有最负的电极电位和最高的金属比容量,是最有前途的负极材料。
Praseodymium and neodymium could be deposited at lithium or quaternary ammonium amalgam electrode, but not at sodium amalgam electrode.
镨、钕在季铵汞齐电极和在锂汞齐电极上都能形成汞齐,而在钠汞齐电极上则不能。
This paper describes the preparation of lithium ion selective electrode based on benzyloxymethyl - 12- crown- 3 synthesized.
报道了苄氧基甲基-12-冠-3的合成,并以此化合物作载体研制成锂离子选择电极。
Negative active material for lithium secondary battery, method for preparing the same, negative electrode comprising the same, and lithium secondary battery comprising same.
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。
This kind of material can be used as negative electrode material of diversified lithium ion battery widely, and as electrode material of capacitor.
该类材料可以广泛地作为各种锂离子电池的负极材料,并可以作为电容器的电极材料。
The development foreground of inverse spinel ions doping in positive electrode materials of lithium manganese oxide was viewed.
展望了反尖晶石离子掺杂在锂离子电池锰酸锂正极材料中的发展前景。
This kind of electrode can be used in rechargeable battery of lithium ion.
这种电极可用在锂离子可再充电电池中。
The metal sulfides electrode materials for lithium secondary batteries include binary metal sulfides, thiospinels, oxysulfides, and thiophosphates etc.
锂二次电池金属硫化物电极材料包括二元金属硫化物、尖晶石硫化物、磷硫化物等。
Besides, researches and designs of the electrode and the battery were proposed for the high discharge current lithium ion battery.
并针对大电流放电锂离子电池提出了电极及电池设计研究方向。
As a lithium ion battery electrode materials with high initial capacity, cycle efficiency, but the cycle stability is not ideal, recycling capacity fade quickly, but need further improvement.
试验方法简单且具有良好重复性。其作为锂离子电池电极材料时初始容量高,循环效率高,但循环稳定性不够理想,循环容量衰减很快,还需要进一步的改善。
The Deposition mechanism of Lithium on aluminium electrode was studied by using linear sweep voltammetry and potential step method.
采用线性扫描伏安法和电位阶跃法,研究了锂离子在铝电极上的电极过程机理。
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.
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。
A new process involving ultrasonic separation of electrode materials, acid dissolution, precipitation of cobalt and lithium has been applied to recover metals values from spent lithium-ion batteries.
采用超声波分离电极材料-酸浸-钴锂沉淀新工艺分离并回收了废旧锂离子电池中的有价金属。
An electrode comprising the binder, and a lithium secondary battery having the electrode are also disclosed.
本发明还公开了一种包含该粘合剂的电极,以及具有该电极的锂二次电池。
The property of PAN-based carbon fibers and carbon fiber cloth used as negative electrode of secondary lithium ion battery is reviewed.
讨论了几种PAN基炭纤维和炭纤维布作为二次锂离子电池负极的行为。
The high-performance electrode material of lithium ion battery has become one of the key technologies in the study and development of high performance lithium ion battery.
锂离子电池用高性能电极材料一直是锂离子电池开发研究的关键技术之一。
The organic sulfides electrode materials for lithium secondary batteries include organodisulfide, orga- nomultisulfide, sulfurized polymers, etc.
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。
Disclosed is a lithium ion capacitor comprising a positive electrode, a negative electrode, and an aprotic organic solvent solution of a lithium salt as an electrolyte solution.
公开了一种锂离子电容器,包括正电极、负电极、和作为电解液的非质子有机溶剂型锂盐溶液。
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