锂离子蓄电池

锂离子蓄电池采用安全且低成本活性材料，其发展方向为高比能化。

The LIB development will be aimed at the high energy density , safety and low-cost active materials ;

PC作电解质组分的锂离子蓄电池高低温性能

High and low temperature performance of Li-ion battery using PC as electrolyte component

添加P2O5的锂离子蓄电池材料LiNiO2研究

Study on LiNiO_2 material with additive P_2O_5 used in lithium ion battery

在国外，加速量热仪（ARC）已被广泛应用于锂离子蓄电池的研究。

Accelerating rate calorimeter ( ARC ) is suitable to studying both the thermokinetics and thermodynamics of lithium ion battery .

研究比较了含和不含碳酸丙稀酯（PC）两种电解液的063048型锂离子蓄电池的循环性能、高温和低温放电性能。

The cyclic performance and high-low temperature discharge performance of 063048 Li-ion batteries using electrolyte with and without PC were studied .

报道了一种新型锂离子蓄电池阳极材料CoS2，利用X射线衍射（XRD）、电子扫描电镜（SEM）和BET等技术研究了其结构和形貌。

Cobalt disulfide was investigated as a promising anode material for lithium ion batteries .

锂离子蓄电池Co3O4负极材料

Study on the Co_3O_4 negative materials for lithium-ion batteries

溶胶-凝胶法制备锂离子蓄电池正极材料Li3V2（PO4）3

Lithium-ion battery cathode material Li_3V_2 ( PO_4 ) _3 prepared by sol-gel procedure

锂离子蓄电池材料LiMn2O4的循环性能和结构关系

Relation between cycling capability and structure in LiMn_2O_4 lithium-ion batteries cathode

LiMn2O4在锂离子蓄电池中的电化学性能

Electrochemical performances of spinel LiMn_2O_4 material for lithium ion battery

介绍了一种采用数字比例积分（PI）调节算法来实现恒流恒压充电功能的锂离子蓄电池性能测试设备。

A performance testing equipment for charging Li ion battery at constant current / voltage controlled by digital adjustment algorithm was introduced .

锂离子蓄电池纳米SnO2负极材料初步研究

Pilot study on nano-sized SnO_2 anode material for lithium ion batteries

锂离子蓄电池用正极LiNi（0.8）Co（0.2）O2的研究

Study on cathode material LiNi_ ( 0.8 ) Co_ ( 0.2 ) O_2 for Li-ion battery

采用Li4Ti5O（12）负极材料的高功率低电压锂离子蓄电池

High-power , low-voltage lithium-ion secondary battery using Li_4Ti_5O_ ( 12 ) as the negative electrode active material

预充制度对锂离子蓄电池固体电解质相界面膜（SEI）的形成有重要的影响。

Pre-charge conditions have great impact on the formation of SEI for Li-ion batteries .

锂离子蓄电池正极材料LiMn2O4高温容量衰减解析

Analysis of the capacity fading of LiMn_2O_4 as cathode material for Li-ion batteries at high temperature

固体核磁共振波谱法（NMR）是研究锂离子蓄电池正极材料结构变化和电化学性能的一种有效手段。

Solid-state NMR spectrum is an effective technique for the study of local structural changes and electrochemical performance of positive electrode materials in lithium ion battery .

所以CHB是锂离子蓄电池优良的过充保护添加剂。

All these advantages promise CHB to be an ideal overcharge protection additive in lithium ion batteries .

锂离子蓄电池正极材料LiNi（1-y）CoyO2的合成及性能

Synthesis and performance of LiNi_ ( 1-y ) Co_yO_2 as cathode material for lithium ion batteries

在充电电池使用过程中，影响电池寿命的最主要因素是过充电和过放电。普通MH-Ni蓄电池、锂离子蓄电池充电器功能比较单一，很难有效防止过充电的发生。

Overcharge and overdischarge are the main factors of influencing the life of rechargeable battery .

碳阳极表面形成的SEI钝化层会导致锂离子蓄电池体系中锂的损失。

Lithium in Li ion battery system is lost because the SEI passive layer is formed onto the surface of carbon anode .

展望了固体NMR技术在锂离子蓄电池正极材料中的应用前景，并认为这些技术将对未来锂离子蓄电池正极材料的研究具有重要意义。

The application foreground of solid NMR techniques in positive electrode materials of lithium ion battery is viewed , and it has guiding significance for the research of positive electrode materials of lithium ion batteries .

锂离子蓄电池LiCuxMn（2-x）O4的相转移法合成及性能

Preparation and electrochemical performance investigation of LiCu_xMn_ ( 2-x ) O_4 for lithium-ion battery by phase transfer method

在最佳合成条件下，即Li／Mn＝1／2及温度800℃，制备的LiMn2O4具有完美的尖晶石结构及良好的电化学性能，完全可以用于高比能长寿命的锂离子蓄电池。

The resultant LiMn 2O 4 synthesized under the optimum synthesis conditions has perfect spinel structure and is an excellent cathode material for high energy , long life , rechargeable lithium ion batteries .

CMR承诺要开发出这样一种比传统燃料电池或现在的锂离子蓄电池体积更小、质量更轻的廉价而高效能的高科技燃料电池。

CMR engineers are working on prototypes that promise to be much smaller , lighter , cheaper and more efficient than conventional fuel cells or today 's lithium-ion batteries .

同时，新型电池技术发展也依然强劲，其中呈现了三个热点技术领域，即锂离子蓄电池及相关材料，42V和混合电动车蓄电池，燃料电池。

Among those , lithium ion batteries and relative materials , 42 V & hybrid electric vehicle ( HEV ) batteries and fuel cells are the three " hot point " technical field .

为了进一步改进锂离子蓄电池的安全性能，研究了在液体电解质中添加环己烷苯（Cyclohexylbenzene，简称CHB）的过充保护作用。

In order to further improve the safety performance of lithium ion batteries , cyclohexylbenzene ( CHB ) was investigated to be an overcharge protection additive for non-aqueous liquid electrolyte in lithium ion batteries .

以所制备的扣式2016锂离子蓄电池为例，经过上述改进，电池的放电容量达到30mAh，0.5C充放电循环500次后容量为初始容量的80%。

Take coin-type 2016 battery as an example , it had a discharge capacity of 30 mAh and kept about 80 % initial capacity after 500 cycles at 0.5 C.

经过十余年建设，XT公司现已成为迄今国内投资规模最大、技术水平最高的锂离子蓄电池专业生产企业，并跻身世界锂电行业前列。

After more than ten years of development , XT has become the largest domestic professional manufacturer of lithium ion batteries with the largest investment and the highest technology . XT is also one of the leading companies in the global lithium industry .

将尖晶石型LiMn2O4材料作为正极活性材料制成18650型锂离子蓄电池，电化学测试表明电池的初放容量达到1.2Ah。

The result of electrochemical test shows that the 18650-size lithium ion battery with spinel LiMn 2O 4 as positive active material gets the initial discharge capacity up to 1.2 Ah .