1) anode film
负极膜
1.
The research progress of all solid state thin film lithium battery was summarized and its configuration, principle, fabrication methods were introduced, and the research progress of cathode and anode film and electrolyte film was presented as well.
综述了全固态薄膜锂蓄电池国内外研究状况,介绍了全固态薄膜锂蓄电池的结构、工作原理及制备方法,并对全固态薄膜锂蓄电池的正负极膜及电解质膜研究情况作了详细的阐述。
2) anode
负极
1.
Effects of the Addition of a Crosslinker on Properties of Carbon Anode Materials ;
交联剂的引入对碳负极材料性能的影响
2.
Surface Modifications of Carbon Materials Used as Anode of Lithium Ion BatteryⅡ.The Carbon Material with Core Shell Structure and Its Positive Effect on Cell Performance of Graphite Anode;
锂离子电池负极碳材料的表面改性与修饰Ⅱ.具有“核壳”结构的碳及其对电池性能的影响
3.
Surface Modifications of Carbon Materials Used as Anode of Lithium Ion Battery Ⅲ. Improvement of Artificially Imposed Solid Electrolyte Film on Cell Performance;
锂离子电池负极碳材料的表面改性与修饰 Ⅲ.人工施加的固体电解质膜对锂碳负极电池性能的改善
3) cathode
负极
1.
The electrochemical behavior of alloy cathode was studied by electrochemical polarization methods in synthetic seawater, and the corrosion rate was measured by soak methods as well as the corrosion surface was observed by using SEM.
研制了一种新型镁合金负极材料 ;用电化学方法测定了镁合金负极在人造海水介质中的电化学性能 ,用浸泡法测定了材料在人造海水介质中的自腐蚀速度 ,用扫描电子显微镜观察了镁合金腐蚀后的表面形貌 ,并与AP65合金和纯镁进行了比较。
2.
The factors included the cathode, anode, separator and electrolyte.
综述了影响MH/Ni电池自放电特性的各种因素的研究进展,包括电池中的负极、正极、隔膜和电解液等对电池自放电的影响;同时还讨论了对这些因素的改进方法。
3.
Tin-based cathode materials for lithium ion secondary batteries have the predominance of high ca-pacity and low costs,which is one of researching hotspots for the cathode materials of high capacity.
锂离子二次电池用锡基负极材料具有高容量、低成本等优势,是目前高容量负极材料的研究热点之一。
4) negative electrode
负极
1.
Factors influencing structure and performance of negative electrode SEI for Li-ion battery;
影响锂离子蓄电池负极SEI膜结构及性质的因素
2.
Research on electrochemical characteristics of negative electrode in Polymer lithium ion battery;
聚合物锂离子电池负极电化学性能研究
3.
The influence of modified sodium lignosulphonate on the performance of negative electrode in lead-acid batteries;
改性木钠对负极电极性能的影响
5) negative electrode materials
负极材料
1.
Research progress on novel non-carbon negative electrode materials for lithium ion batteries;
非碳类新型锂离子蓄电池负极材料研究进展
2.
The methods for improving the properties of graphite negative electrode materials in Li-ion battery;
锂离子电池石墨负极材料的改性方法
3.
Development of Li-ion batteries for military fields and its negative electrode materials;
军用锂离子电池及负极材料研究进展
6) negative electrode material
负极材料
1.
Study of Co_3O_4 with doped PTFE as negative electrode material;
掺杂PTFE改性Co_3O_4负极材料的研究
2.
The solid solution alloys showed easy activation behavior(to reach the maximum capacity within 3 cycles) and favorable rate dischargeability as a negative electrode material in Ni-MH batteries.
4)Cr_x系列合金作为镍-氢化物电池负极材料具有良好的活化性能(3次循环可以达到最大放电容量)和倍率放电能力;由于Cr取代Mn抑制了合金中吸氢元素V充放电过程中在电解液中溶解,显著改善了此系列合金电极的循环寿命,20周循环后循环稳定性系数S20从6。
3.
Polyacrylonitrile(PAN)-based carbon felt and nickelfoamor carbon felt with Ni or Co coat were used as positive and negative electrode materials for the polysulfide/bromine battery(PSB).
结果表明:泡沫镍及镀镍或钴的碳毡可做电池负极材料;充放电电流密度为30mA/cm2时,电池的能量效率约 80 %;电池循环性能较好。
参考词条
补充资料:负极
阴极 ①。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。