锡的合金可能是更有前景的负极材料。
The most promising anode material is perhaps the alloy of tin.
综述了锂离子蓄电池锡基负极材料的研究。
Studies of tin based anode materials for lithium ion secondary battery have been reviewed.
综述了锂离子电池锡基负极材料的研究进展。
Studies of tin-based anode materials for lithium ion secondary batteries are reviewed.
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.
锡基负极材料主要有锡的氧化物、复合氧化物、盐。
Tin based anode materials include oxides, complex oxides and salt.
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.
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.
锂离子电池的电化学性能取决于正极材料、负极材料和电解质。
The electrochemical performances of the Li-ion batteries depend on the cathode materials, the anode materials and the electrolyte.
该研究小组计划,包括纳米复合硫阴极和丰富的锂复合负极材料。
The research team plans to include a nanocomposite sulfur cathode and lithium-rich composite anode material.
对于电极材料的改进,论文首先对负极材料多孔炭进行了结构改性。
Secondly, porous carbons with high micro-pore volume were made by the phosphoric activation on rich nitric polymer.
锂离子电池的石墨负极材料已商品化,但还存在一些难以克服的弱点。
The graphite anode material for Li-ion battery has commercialized. But it has some problems to be solved.
锌作为化学电源的负极材料,不仅来源丰富,而且具有优良的电化学性能。
Zinc is used as the cathode material, not only the source is abundant, and has excellent electrochemical performance.
金属锂具有最负的电极电位和最高的金属比容量,是最有前途的负极材料。
Lithium metal is the most promising anode material because of its most negative normal electrode potential and the highest specific energy.
因此,寻找更好的更可靠的新型的锂离子电池负极材料成为人们的研究方向。
Therefore, it was of great interest to find more reliable anode materials for li ion cell.
正极材料、负极材料、隔膜和电解液的项目进展情况将是会议重点探讨内容。
In upcoming conference, the industrial projects update of cathode materials, anode materials, separators and electrolytes will be focused.
选择热稳定性好的正负极材料、电解液及其阻燃剂,可以提高电池的热稳定性;
The thermal stability of battery was improved by choosing thermally stable anode and cathode materials, electrolyte and its additives.
良好的电化学性能表明高分散锡和锡钴合金复合材料有望成为锂离子电池负极材料。
The good electrochemical performance shows that the highly dispersed tin and tin-cobalt alloy composites may be promising anode materials for lithium ion batteries.
同时也证明了粉末微电极循环伏安法用于估测LIB炭负极材料的循环性能的可行性。
The powder microelectrode cyclic voltammetric method was proved to be able to estimate the cyclic performance of carbon negative electrode materials in LIB.
介绍了中国电子科技集团公司第十八研究所在锂离子电池炭负极材料方面的研究进展。
The research progress, made by no. 18 research Institute, China Electronics Technology Group Corporation, in carbon materials for anodes of lithium ion batteries was reviewed.
该类材料可以广泛地作为各种锂离子电池的负极材料,并可以作为电容器的电极材料。
This kind of material can be used as negative electrode material of diversified lithium ion battery widely, and as electrode material of capacitor.
研究了锂离子在人造石墨(AG)中的电化学嵌入特性和用它作负极材料时的电池性能。
Electrochemical intercalation characteristics of lithium ion in artificial graphite (AG) and the performances of AA size cell with it as the anode were studied in this paper.
阐明了采用粉末微电极循环伏安法估测锂离子电池(LIB)炭负极材料的循环性能的原理。
The principle of estimating the cyclic performance of carbon negative electrode materials in LIB with the powder microelectrode cyclic voltammetric method was illustrated.
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.
空心碳纳米球在储氢、锂离子负极材料等领域应具有类似于碳纳米管的潜在的巨大应用前景。
Therefore, it has remarkably potential application in hydrogen storage material and anode material for lithium secondary batteries.
将其分别作为锂离子电池负极材料的活性物质,利用恒电流电池测试仪研究它们的电化学性能。
They were used as active material of anode materials for lithium ion batteries respectively, using constant-current cell tester to test their electrochemical properties.
将其分别作为锂离子电池负极材料的活性物质,利用恒电流电池测试仪研究它们的电化学性能。
They were used as anode materials for lithium ion batteries respectively, and their electrochemical properties were studied using constant electric current cell tester.
合成并研究了一种包覆一层氢氧化铁的天然石墨材料,它可作为一种新型锂离子电池负极材料。
The preparation of a novel natural graphite based anode material coated with iron hydroxide has been studied.
综述了锂离子电池负极材料的研究进展,介绍了碳素材料、锡氧化物和锡基复合氧化物负极材料。
The progress in research on anode materials for lithium_ion secondary batteries are reviewed. Anode materials of carbon, tin_based composite oxide are summarized.
从应用角度阐述了市场对正极材料钴酸锂和负极材料石墨的发展趋势和市场对正负极材料的要求。
From the view of market application, the development status and trends of cathode material LiCoO2 and anode material Graphite were summarized in this paper.
从应用角度阐述了市场对正极材料钴酸锂和负极材料石墨的发展趋势和市场对正负极材料的要求。
From the view of market application, the development status and trends of cathode material LiCoO2 and anode material Graphite were summarized in this paper.
应用推荐