本发明可应用于锂离子电池电解液中的六氟磷酸锂的制备领域。
The invention can be applied to the preparation field of the lithium hexafluorophosphate in a lithium ion battery electrolyte.
根据对这几个参数的计算结果,可选择所需要的锂离子电池电解液功能组分。
Based on the calculation results of these parameters, we can choose electrolyte functional composition of lithium ion battery.
采用化学反应合成亚硫酸乙烯酯(es)并将其用作锂离子电池电解液添加剂。
Ethylene sulfite (es) is synthesized by chemical method and used as an additive in lithium-ion cell electrolyte.
在锂离子电池电解液中添加4-溴苯甲醚(简称4BA)可提高锂离子电池的过充保护能力。
In order to improve the ability of overcharge protection, 4BA was added as a novel electropolymerizable additive to the electrolyte of lithium-ion batteries.
本课题的立意在于寻求锂离子电池电解液的低温共溶剂,并考察其对锂离子电池低温电化学性能的影响。
Searching electrolyte low temperature co-solvent and investigating the effect of it on low temperature electrochemical performance of lithium ion batteries are the intentions of this research.
研究了六甲基二硅胺烷(HMDS)作为锂离子电池电解液的稳定剂对电解液稳定性和电化学性能的影响。
Using hexamethyldisilazane (HMDS) as stabilizer of Li-ion battery electrolytes, the influences of HMDS on the stability of electrolyte and electrochemical properties of Li-ion batteries were studied.
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.
锂离子电池的三个主要功能部分是阳极、阴极和电解液,当然还要使用其它各类材料。
The three primary functional components of a lithium ion battery are the anode, cathode, and electrolyte, for which a variety of materials may be used.
正负极材料、电解液及其添加剂、电池的结构以及制备工艺条件都对锂离子电池的安全性有重要的影响。
The anode and cathode materials, electrolyte and its additives, structure of battery and manufacture process had important effect on the safety of Li-ion battery.
由于液态有机电解液固定于聚合物网络的微结构中,从而制得表观干态的聚合物锂离子电池。
Owing to the liquid state organic electrolyte is fixed in micro polymer network structure, polymer lithium ion cell in apparent dry state is prepared.
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.
报导可显著提高锂离子电池安全性的新型电解液添加剂全氟辛酸铵(APC)。
This paper firstly revealed that the safety of lithium-ion battery could be greatly improved by using a novel electrolyte additive: ammonium perfluorocaprylate (APC).
根据阳极、阴极、和电解液材料的不同,锂离子电池的电压、容量、寿命、安全性会有很大的不同。
Depending on the choice of material for the anode, cathode, and electrolyte the voltage, capacity, life, and safety of a lithium ion battery can change dramatically.
综述了锂离子电池常用有机电解液的电导率、电池学稳定性等性能及电池对电解液的一般要求。
The performance such as conductivity and electrochemical stability of common organic electrolyte of Li-ion batteries and general requirement for electrolyte were reviewed.
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.
研究了六甲基二硅氮烷(HMDS)对电解液稳定性和锂离子电池循环性能的影响。
The effects of hexamethyldisilazane(HMDS)to the stability of electrolyte and cycle performance of Li-ion battery were studied.
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。
From the aspects of organic solvents, lithium salts and additives, research progress of the non-aqueous organic electrolyte for Li-ion batteries is reviewed.
非水电解液至今仍然是锂离子电池最常用的,也是生产工艺最成熟的电解液体系。
Non-aqueous electrolyte is still in the most common use in the production of lithium-ion batteries for is comparatively excellent ratio of cost-to performance and handling convenience.
因此,这种添加剂可以用作锂离子电池双功能电解液添加剂,达到过充和阻燃双重效果。
Thus, it is possible to use this electrolyte additive to provide both overcharge protection and flame retardancy for lithium-ion batteries.
研究了极片面密度、隔膜厚度以及电解液等因素对锂离子电池高倍率放电性能的影响。
The influence factors of the high rate discharge performance of li-ion battery were studied.
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.
本文从锂离子电池热安全性特点着手,分析了锂离子电池的着火、爆炸和电解液泄漏等安全事故特点。
From the point of lithium-ion batteries' thermal safety characteristics, its performances of fire, explosion, and electrolyte leakage are analyzed in this paper.
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。
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。
The invention discloses a lithium iron phosphate li-ion battery, comprising an anode, a cathode, a separator, an electrolyte and a battery shell.
应用推荐