1) anode material Cr_2O_3
负极材料Cr_2O_3
2) 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
3) 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。
4) anode material
负极材料
1.
Amorphous carbon nanotubes as new anode material for lithium ion batteries;
非晶碳纳米管新型锂离子电池负极材料
2.
Nano Sn-SnO-Zn anode material synthesized by solid state reaction;
固相反应法制备Sn-SnO-Zn纳米负极材料
3.
Graphite wastes used as anode material for lithium ion batteries;
石墨电极废料用作锂离子蓄电池负极材料
5) Anode materials
负极材料
1.
Progress of antimony-based anode materials for lithium-ion battery;
锂离子蓄电池锑基负极材料研究进展
2.
Research progress on anode materials for lithium-ion batteries;
锂离子电池负极材料的研究进展
3.
Synthesis and study of highly dispersed tin and tin-cobalt alloy composite anode materials for Li-ion batteries;
锂离子蓄电池锡基复合负极材料的研究
6) negative material
负极材料
1.
Study of Ni-coated mesocarbon microbeads for Li-ion battery negative material;
锂离子电池负极材料中间相炭微球的表面镀镍修饰研究
2.
Synthesis and electrochemical performance study of the tin-nickel alloy negative materials;
锡镍合金负极材料的制备及电化学性能研究
3.
Scrap artificial graphite used as negative material of lithium ion batteries was firstly oxi- dized with 30% H_2O_2 at room temperature,and then modified by two methods:LiOH impregnation and molten Li_2CO_3 coating technique with N_2 protection.
废人造石墨在室温下经30%的双氧水氧化,真空干燥后进一步用LiOH浸渍处理或与Li_2CO_3共混后在N_2保护下升温处理,在人造石墨表面形成类SEI膜用作锂离子电池的负极材料。
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。
参考词条