正极

zhèng jí
  • positive electrode;anode;positive pole;positive plate
正极正极
正极 [zhèng jí]
  • (1) [positive pole]

  • (2) 连接伏打电池或蓄电池正极板的端子。亦称阳极

  • (3) 磁铁指向北的磁极。亦称北极

正极[zhèng jí]
  1. 正极带正电荷,负极带负电荷。

    The positive pole carries a positive charge while the negative pole does a negative charge .

  2. 锂离子二次电池LiMn2O4正极材料的研究进展

    Study progress of lithium ion battery LiMn_2O_4 positive pole material

  3. 正极材料α-Ni(OH)2的研究进展

    The research progress in α - Ni ( OH ) _2

  4. LixMnO2正极材料的合成及其电化学特性

    Synthesis and Electrochemical Properties of Li_xMnO_2 Cathodes Materials

  5. 这种Ni(OH)2特别适合于用作金属氢化物-镍电池的正极活性材料。

    It is suitable for using as positive active material in Ni MH batteries .

  6. 本文综述了碱性蓄电池的正极活性材料Ni(OH)2的制备工艺方法。

    The manufacturing techniques of anodic activated material of alkaline storage battery are summarized .

  7. 纳米β-Ni(OH)2二次造粒制备高功率镍氢电池正极材料

    Granulation of nano-scale β - Ni ( OH ) _2 cathode materials for high power Ni-MH batteries

  8. XRD分析表明,制得的正极材料具有完整的层状结构。

    XRD results show that the prepared cathode materials have perfect layer structure .

  9. 外掺Y2O3对镍氢电池正极高温性能的影响

    Effect of Y_2O_3 as Additives on the High-Temperature Properties of Ni-MH Batteries

  10. 可充镁电池正极材料MgTi2O5的研究

    Study of MgTi_2O_5 as Cathode Material for Rechargeable Magnesium Batteries

  11. 正极含Y2O3的D型镍氢电池的温度特性

    The temperature character of D type MH-Ni batteries with Y_2O_3 as addictive

  12. 利用XRD、TEM和SEM对正极材料的化学组成和微观形貌进行了分析。

    The microstructure and morphologies of these composites were investigated by XRD , TEM and SEM .

  13. 电池正极新材料氢氧化高镍[Ni(OH)3]的研制

    Research and manufacture of nickelic hydroxide [ Ni ( OH ) 3 ] & a new material for battery positive electrodes

  14. 另外,充电制式的不同,也会影响正极中Ni(OH)2晶型的变化。

    In additions , the variation of charging regime can also influence the crystal changes of Ni ( OH ) 2 .

  15. 包埋镍酸锂为正极的AA电池性能研究

    Study on the performance of the AA size batteries using coated-LiNiO_2 as cathode materials

  16. 尖平板间隙中SF6人造空气的正极性冲击击穿特性

    Positive Impulse Breakdown Characteristics of the Pin-Plane Gap in SF6-Artificial Air Mixture

  17. Se对铅酸蓄电池正极板栅腐蚀性能的影响的研究

    The Effect of Se on the Corrosion Property of Lead Alloys as Positive Grid Alloys in Lead-acid Battery

  18. c-V2O5正极材料电化学性能的研究

    Study of electrochemical characteristics of c-V_2O_5 as cathode materials for lithium rechargeable batteries

  19. 复合添加Lu2O3和Er2O3对镍氢电池Ni(OH)2正极高温性能的影响

    Effect of Lu_2O_3 and Er_2O_3 as Additives on Properties of Ni ( OH ) _2 Positive Electrode at High Temperature

  20. 四乙基溴化铵作为一种正极添加剂能很好地与溴络和。当在电池的正极中添加适量的含四乙基溴化铵的混合添加剂时,电池的比能量高达46.8Wh/kg。

    When proper amount of tetraethyl ammonium bromide is added to anode , specific energy of the battery could go up to 46.8Wh/kg .

  21. 水热合成锂离子正极材料LiMn2O4

    Hydrothermal Synthesis of LiMn_2O_4 Spinel for Cathode of Lithium Ion Battery

  22. 掺铬锂电池正极材料Li(1+x)CryMn(2-y-x)O4的合成及其结构性能的研究

    Preparation and structural investigation of li-cr-mixed doped spinel materials li_ ( 1 + x ) cr_y mn_ ( 2-x-y ) o_4 for lithium-ion batteries

  23. 深循环用VRLA电池正极铅膏研究

    A study on the positive paste of VRLA battery for deep cycle

  24. Mn(Ⅲ)/Mn(Ⅱ)作为液流电池正极的可行性及锂离子电池锡基负极材料的研究

    Studies on the Feasibility to Mn (ⅲ) / Mn (ⅱ) Cathode of Redox Flow Cell and Tin-based Anode Materials for Lithium-ion Batteries

  25. 微波-模板法合成锂离子电池正极材料LiMn2O4机理的光谱学研究

    Study on Microwave-Templated Synthesis Mechanism of LiMn_2O_4 by Infrared Spectroscopy

  26. 1m棒-板空气间隙正极性操作冲击放电特性及电压校正

    Positive Polarity Switching Impulse Discharge Performance and Voltage Correction of 1m Rod-plane Air Gap

  27. 锂电池正极材料LiMn2O4的改性与循环寿命

    Modification of LiMn_2O_4 Cathode Materials for Improved Capacity Retention

  28. 锂离子在LiMn2O4正极材料中的界面过程

    Studies on the Interfacial Process of Lithium Ion in the Cathode Material of LiMn_2O_4

  29. 锂离子电池正极材料LiCo(1-x)NixO2的合成、改性与电化学性能研究

    Synthesis , Modification and Electrochemical Characterization of LiCo_ ( 1-x ) Ni_xO_2 as Cathode Materials for Lithium Ion Batteries

  30. 锂离子电池正极材料LiMn2O4软化学合成方法的新进展

    Recent development on the soft chemical method of synthesis anode material LiMn_2O_4 for Li-ion battery