综述了锂离子二次电池负极材料的研究和进展。
Studies and developments of anode materials for lithium ion secondary battery are re - viewed.
综述了最近几年来锂离子二次电池负极材料的研究。
Recent studies on anode materials for lithium ion secondary battery are reviewed.
正极材料的研究是锂离子二次电池的核心技术之一。
The research and the development on the current situation of the lithium-ion battery anode materials are reviewed in this paper.
正极材料的研究是锂离子二次电池的核心技术之一。
Progress in solid-state NMR spectrum study of positive electrode materials for lithium ion batteries;
非水电解质二次电池负极材料,制造方法,和锂离子二次电池。
Non-aqueous electrolyte secondary battery negative electrode material, making method, and lithium ion secondary battery.
综述了最近几年对于锂离子二次电池正极材料氧化锰锂的研究。
In this paper, the latest progress on lithium manganese oxide as cathode materials of lithium ion secondary battery was reviewed.
而高性能电解质材料的研究与开发是锂离子二次电池的关键技术之一。
One of the critical techniques is to study and develop new high energy density electrolyte materials.
动力型锂离子二次电池是电动汽车、电动工具的电力来源,市场前景广阔。
Power type lithium ion batteries which are used in electric vehicles and other electric tools, are believed to be a splendid future.
采用磁控溅射方法制备金属锑薄膜,并把它作为锂离子二次电池负极进行研究。
Metallic antimony thin film was deposited by magnetron sputtering and it was investigated as anode materials for lithium-ion batteries.
锂离子二次电池具有能量转换效率高、环境污染小、便于携带、使用方便等特点。
Rechargeable lithium ion batteries have attracted worldwide attention because its high energy invert efficiency, good to environment, easy to carry and convenient for using.
然而,锂离子二次电池使用的是有机电解液,其带来的安全问题已成了人们关注的焦点。
Therefore the safety of the battery due to the application of organic electrolyte has become the focus of research.
解决电池高容量化的关键材料——碳负极材料的高性能化已成为锂离子二次电池的重要课题。
It has been becoming very important to improve the capability of carbon cathode material, and father to improve the capacity of lithium ion secondary batteries.
介绍了焦炭、石墨、难石墨化碳及碳纤维、中间相微球等锂离子二次电池用碳负极材料的研究概况。
The cokes, graphites, nongraphitizable carbon, carbon fibers. mesocarbon. microbeads(MCMB)used as carbon anode materials for lithium ion secondary batteries ware presented.
锂离子二次电池是性能最优越的电池之一,研究全固态电解质是锂离子二次电池研究中最前沿的课题。
The lithium ion battery is a new type of battery with superior performance. Studying of the solid-state electrolyte is the most advanced contents in the lithium ion secondary battery.
本发明涉及一种锂离子二次电池,尤其指一种硬壳聚合物锂离子电池及其制造方法,适用于汽车电池。
The invention relates to a lithium ion secondary battery, in particular to a crust polymer lithium ion battery and a manufacturing method thereof applicable to automobile batteries.
尖晶石锂锰氧化物具有资源丰富、成本低、无污染等突出优点,被公认为是一种最有前途的锂离子二次电池正极材料。
Lithium manganese oxide spinel is considered as a most promising positive material for lithium-ion secondary batteries because of its low cost and environmental harmlessness.
锂离子二次电池非晶态电解质作为研究热点,同时也是凝聚态物理学中最为活跃的领域之一,并且成为材料科学的一个前沿部分。
As a research hotspot, amorphous solids electrolyte for lithium-ion secondary batteries has become one of the most active fields in condensed matter physics and an advanced part in material science.
讨论了凝胶电解质的特性、类型、关于其结构性能的研究方法,以及其在电双层电容器和锂离子二次电池方面的应用研究状况,并简要探讨了发展前景。
The specific properties, types, the methods in studying their structure and function and the prospect of their application in electronic double layer capacitors are discussed.
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.
良好电导率、高锂离子迁移数、宽电化学窗口是聚合物电解质应用于锂二次电池中的关键。
Good conductivity, high lithium - ion transference number and wide electrochemical window were the requirements for utilization of polymer electrolytes in lithium secondary batteries.
良好电导率、高锂离子迁移数、宽电化学窗口是聚合物电解质应用于锂二次电池中的关键。
Good conductivity, high lithium - ion transference number and wide electrochemical window were the requirements for utilization of polymer electrolytes in lithium secondary batteries.
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