1) CDMO
锂锰复合氧化物
2) Li_4Mn_5O_(12)
锂锰氧化合物
1.
The effect of microwave on the electrochemical performances of Li_4Mn_5O_(12) samples synthesized by solid-state sintering method;
微波对固相烧结锂锰氧化合物电化学性能的影响
3) composite dimensional manganese oxide
锂锰复合物
1.
The electrolytic manganese dioxide was activated by heat treatment(HEMD),and the composite dimensional manganese oxide(CDMO) was prepared from HEMD and LiOH·H2O by heat treatment.
H2O的混合物制备锂锰复合物(CDMO),采用热分析研究了温度对γ-β-MnO2与LiOH。
4) lithium manganese oxides
锂锰氧化物
1.
The recent progress in lithium manganese oxides spinel as cathode materials of lithium-ion batteries is reviewed.
锂锰氧化物资源丰富、成本低廉、工艺简单 ,最有希望替代锂钴氧化物正极材料 ,论文综述了尖晶石型锂锰氧化物的制备方法、性能改善等方面的研究进展 。
2.
Several lithium manganese oxides,including λ MnO 2,LiMnO 2,Li 2Mn 2O 4,Li 2MnO 2,Li xMnO 2,Li 1+x Mn 2-x O 4,Li 2O yMnO 2(y≥2.
这些锂锰氧化物包括λ-MnO2,LiMnO2,Li2Mn2O4,Li2MnO2,LixMn2O4,Li1+xMn2-xO4,Li2OyMnO2(y≥2。
3.
The spinel LiMn_2O_4 and cobalt-doped or chrome-doped lithium manganese oxides of the cathode for rechargeable lithium-ion batteries was synthesized by wet chemical process which is considered as a most promising method for the synthesis of spinel lithium manganese oxides.
湿化学法是一种较有发展前景的合成尖晶石锂锰氧化物的方法。
5) lithium manganese oxide
锂锰氧化物
1.
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
2.
Research progress on lithium manganese oxides as cathode materials for Li-ion battery;
锂离子蓄电池正极材料锂锰氧化物的研究进展
3.
Development of wet-chemical synthesis of lithium manganese oxide;
锂锰氧化物的湿化学合成研究进展
6) Lithium-Manganese oxide
锂锰氧化物
1.
Various preparation methods of lithium-manganese oxide and lithium-titanium oxide which act as precursors of lithium ion-sieves were introduced,respectively.
详细介绍了作为锂离子筛前驱体的锂锰氧化物和锂钛氧化物的制备方法,包括固相烧结法和液相反应法等。
补充资料:锂/二氧化锰电池
分子式:
CAS号:
性质:又称锂/二氧化锰电池。它的负极为金属锂;正极为特种二氧化锰;电解液为LiClO4的有机溶剂溶液。是一种生产量最大的锂原电池,主要用在照相机、手表、仪器、CMOS记忆支撑等方面。
CAS号:
性质:又称锂/二氧化锰电池。它的负极为金属锂;正极为特种二氧化锰;电解液为LiClO4的有机溶剂溶液。是一种生产量最大的锂原电池,主要用在照相机、手表、仪器、CMOS记忆支撑等方面。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条