Lithium oxide

Influences of lithium oxide in lithium ore on the performances of C-glass

锂矿物中氧化锂对中碱玻璃性能影响的研究

Study on Compositions of Container Glasses Containing Lithium Oxide and Their Applications

含氧化锂易熔瓶罐玻璃配方的研究与应用

Lithium Oxide Content in Alumine Determined by Atomic Absorption Spectral Analysis

原子吸收光谱法测定氧化铝中氧化锂含量

Determination of chemical components in manganese lithium oxide

氧化锰锂化学成分测定

But with the amount of doping is too much , the dielectric performance of materials would be worse . A moderate amount of lithium oxide and bismuth oxide can significantly reduce the sintering temperature and improve the dielectric performance of the ceramics at low temperature .

但是随掺杂量的过大，材料的介电性能会有所恶化。适量的Li2CO3、Bi2O3可显著降低烧结温度和改善低温烧结陶瓷的介电性能。

As lithium oxide is replaced by sodinm oxide or potassium oxide , refractive index linearly decreases , stress-optical coefficient increases , and the largest difference of refractive index is more than 0 . 02 or 0 . 03 respectively .

氧化钠或氧化钾取代氧化锂后，使折射率线性降低，折射率改变值分别大于0.02或0.03，应力光学系数升高，阿贝数则表现出不同的变化；

This method can be used in determining sodium oxide content ranging from 1 % to 15 % and lithium oxide content ranging from 0 . 1 % to 5 % contained in continuous casting paniculate powders , steel - making composite slag and the material of the same type .

本方法可应用于测定连铸颗粒保护渣、炼钢用复合渣等同类型材料中含量为1%～15%的氧化钠及含量为0.1%～5%的氧化锂的分析。

The spinel Lithium manganese oxide was synthesized with solid reaction method .

采用固相法合成了锂锰氧化物。

The effects of Al doping on the structure and performance of lithium manganese oxide

Al掺杂对锰酸锂结构与性能的影响

Study on the new process for the recovery of cobalt from spent lithium cobalt oxide

钴酸锂废极片中钴回收新工艺研究

Research Progress on Structure and Doping of Lithium Manganese Oxide Ion-sieve

锂锰氧化物离子筛结构和掺杂研究进展

Determination method of cobalt doped lithium manganese oxide composition

掺钴锂锰氧化物组成成份测定方法

It was believed that lithium manganese oxide was a good substitute .

锂锰氧化物是最有希望的正极活性物质。

Multiple kinds of lithium manganese oxide especially including spinel phase have been studied and characterized .

多种锂锰氧化物特别是具有尖晶石相的锂锰氧化物吸附剂已经被研究和表征。

Electrochemistry influence of nickel (ⅱ) additive in lithium manganese oxide

掺杂镍对锰酸锂电化学性能的影响

Option for Synthetic Temperature of Spinel Lithium Manganese Oxide

尖晶石锂锰氧化物合成温度的选择

Synthesis and performance of chromium - doped spinel lithium manganese oxide prepared by wet chemical method

掺铬锂锰氧化物的湿化学法合成与性能

Study on dislocations in lithium boric oxide ( lbo ) crystal

三硼酸锂（LBO）单晶的位错研究

Development of wet-chemical synthesis of lithium manganese oxide

锂锰氧化物的湿化学合成研究进展

The Deep Discharge Property of Spinel Lithium Manganese Oxide Prepared by Ions-Exchange

离子交换法合成尖晶石锂锰氧化物深度放电性能

Structure and electrochemical performance of Li-rich spinel lithium manganese oxide with doping cobalt

富锂型掺钴尖晶石锂锰氧化物的结构与电化学性能

Electrochemical Behaviors of Fluorine Doped Lithium Manganese Oxide

氟掺杂型锂锰氧化物的电化学性能研究

Preparation and performance improvement of layered lithium manganese oxide Magnetic and Transport Properties of Layer Perovskite Manganites

层状锂锰氧化物制备及性能改进

SEM analysis showed electrode surface micrographics of lithium ferrite oxide with various Li : Fe values are different .

扫描电镜研究（SEM）表明，Li：Fe比值不同，制备的锂铁氧化物电极表面形貌也不同。

Rietveld refinement of powder XRD and its application on the studies of lithium nickel oxide cathode materials

Rietveld方法在锂镍氧化物电极材料研究中的应用

Structural and Electrochemical Studies on Lithium Manganese Oxide Containing Li + Prepared by Hydrothermal Method for Lithium Ion Batteries

锂离子电池锂锰氧化物高压嵌锂材料的结构和电化学性能研究

This thesis is related about the recent development of lithium cobalt oxide used as the cathode of lithium ion battery .

近年来对提高锂离子电池正极材料氧化钴锂的电化学性能方面的报道集中在专利方面，本文对此进行了概述。

Lithium nickel oxide as the positive electrode of lithium ion batteries has aroused more and more interests .

锂镍氧化物是目前高容量大功率锂离子电池正极材料的主要候选材料之一。

At the same temperature , the conductivity of lithium ferrite oxide increase with the increasing of Li : Fe values .

在同一温度下，随着Li：Fe值的增大，锂铁氧化物电极的导电性增加。

Abstract : Lithium nickel-based oxide is a kind of promising cathode material to power next generation of lithium-ion batteries .

摘要：镍系锂离子电池正极材料是一种极具希望的下一代锂离子正极材料。