本实用新型还公开了包含上述负极的扣式锂电池。
The utility model also discloses a buckle type lithium battery including the cathode.
水溶性粘合剂可以用作锂离子电池正、负极的粘合剂。
The water-soluble binder could be applied to the positive and negative electrodes of the lithium-ion battery.
这种电极的容量远大于负极的,成为限制放电深度的电极。
The capacity of this electrode is much larger than that of the negative electrode to limit its depth of discharge.
本发明提供了一种电池负极的添加剂,其中包含稀土氧化物。
The invention provides an additive of battery cathode, which contains rare-earth oxide.
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 property of PAN-based carbon fibers and carbon fiber cloth used as negative electrode of secondary lithium ion battery is reviewed.
在没有人交叉正负极的情况下击败纳克·萨玛斯的塔迪乌斯(英雄困难程度)。
Defeat Thaddius in Naxxramas on Heroic Difficulty without anyone in the raid crossing the negative and positive charges.
本发明还提供含有这种负极添加剂的电池负极,以及包含上述电池负极的电池。
The invention also provides a battery cathode which contains the additive and a relative battery with the cathode.
相同的充电条件下,正极与负极的活性物质质量比越大,产生的气体越多,内压越高;
At the same charge condition, the larger mass ratio of positive and negative active materials is, the more gas produces, the higher internal pressure is.
比较了各种嵌锂炭质材料为负极的锂离子蓄电池的主要性能,并对其实用性作了探讨。
The main performances of lithium-ion battery with carbonaceous anode intercalated lithium were compared and the practicality were explored.
该锂离子电池负极的制备方法,包括以下步骤:提供一碳纳米管阵列形成于一基 底;
The preparation method of the lithium ion battery cathode comprises the following steps: providing a carbon nanotube array to form a substrate;
本发明涉及一种锂离子电池负极及其制备方法以及应用该锂离子电池 负极的锂离子电池。
The invention relates to a lithium ion battery cathode, a preparation method thereof and a lithium ion battery using the lithium ion battery cathode.
本文提出了用于高倍率,长循环稳定性,高能量密度的双离子电池负极的碳包覆多孔铝箔。
Carbon-Coated Porous Aluminum Foil Anode for High-Rate, Long-Term Cycling Stability, and High Energy Density Dual-Ion Batteries "."
磁化杯:只要负极的磁化水才能改进人体生理功能,起到保健的效果,而正极的磁化水不宜多喝。
Magnetization cup: as long as the cathode of the magnetized water can improve human body physiological functions, have the health care effect, and the anode of the magnetized water not to drink more.
由于碳基电容器正极容量远小于负极容量,所以本文主要致力于开发新的正极材料与作为负极的碳电极组成混合电容器。
The paper also found that the positive carbon electrode was much smaller than that of negative one, so it urged to develop new positive material to make up hybrid capacitor.
综述了用于锂离子电池负极的石墨材料的修饰与改性方法,所研究的石墨材料包括天然石墨、人造石墨和石墨化碳纤维。
Modifications of graphite materials for negative electrode of lithium ion batteries were reviewed. Natural graphite, artificial graphite and graphitic carbon fiber were discussed.
利用X射线衍射(XRD)、X射线光电子能谱(XPS)对材料进行表征,并将复合材料用作锂离子电池负极材料,研究了它作为负极的电化学性能,并初步探讨了化学机理。
The composite was investigated by XRD and XPS, its electrochemical performance as anode active materials for lithium ion batteries was studied, and its chemical mechanism was discussed.
那就是它怎么起作用的,顺便说一下,这就是负极。
这次闪电是一个负极梯级先导,它是从一架飞机上拍下的。
This lightning, a negative stepped leader, was filmed from an airplane.
最终一个下行传播的负极梯形先导接触到地面,制造了一次回击。
Eventually a negative stepped leader travels downward and reaches the ground, creating a return stroke.
它是丝状的,以锡的氧化物为正极,锂钴氧化物为负极,悬浮在离子电解液中。
It's a filament made from tin oxide anode and lithium cobalt oxide cathode suspended in an ionic liquid electrolyte.
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。
As the battery discharges, the lithium ions swim from the negative-electrode lattice to the positive one; during recharging, they swim back again.
我想电池的这面,是正极这是负极。
I believe this side of the battery is positive and this is negative.
离子和电子在负极相遇,和氧气结合从而形成填入碳层的锂氧化物。
The ions and electrons met at the cathode, and combined with the oxygen to form lithium oxide that filled the pores in the carbon.
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。
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.
通过把一个像素的正负极输入电压,聚合物就能被加工成一种吸收或排除某些电解液的物质,这样它也就会增大或缩小。
By applying a voltage across the electrodes of a pixel, the polymer can be made to absorb or expel some of the electrolyte and thus expand or contract.
也许CCS最激动人心的部分就是其应用于“碳负极”发电厂的前景。
Perhaps the most exciting element of CCS is the prospect of "carbon negative" power plants.
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)。
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.
取而代之的是在正极和负极上使用栅格结构材料。
Instead they use materials with lattice structures for both positive and negative electrodes.
电池放电时,正极释放出的锂离子快速运动回到负极,充电过程中在负极由锂离子携带的电子被释放出来,从而为外部电路提供电力。
As they do so, the electrons that were paired with them in the anode during the charging process are released. These electrons power an external circuit.
电池放电时,正极释放出的锂离子快速运动回到负极,充电过程中在负极由锂离子携带的电子被释放出来,从而为外部电路提供电力。
As they do so, the electrons that were paired with them in the anode during the charging process are released. These electrons power an external circuit.
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