锰酸

měng suān
  • manganic acid
锰酸锰酸
锰酸[měng suān]
  1. 但在充放电循环过程中,由于锰的溶解、电解液分解以及Jahn-Teller效应等原因,尖晶石形锰酸锂的比容量衰减较快。

    However , the capacity of spinel manganic acid lithium fades rapidly in the charge-discharge cycle process . It has been suggested that the capacity fading is due to Jahn-Teller distortion , dissolution of manganese into the electrolyte and decomposition of the electrolyte .

  2. 锰酸形成的一种盐,含有锰作为其阴离子。

    A salt of manganic acid containing manganese as its anion .

  3. 高锰酸氧化罗丹明B褪色吸光光度法测定微量锰

    Spectrophotometric Determination of Microamount of manganese by the oxidation color fading reaction of permanganate with Rhodamine B

  4. Al掺杂对锰酸锂结构与性能的影响

    The effects of Al doping on the structure and performance of lithium manganese oxide

  5. 以Mn2O3,Al(NO3)3.9H2O和LiOH.H2O为原料,采用固相合成法制备掺铝锰酸锂材料。

    Doping Al lithium manganese oxides were prepared using Mn_2O_3 , Al ( NO_3 ) _3 · 9H_2O and LiOH · H_2O as raw materials by solid-state method .

  6. 分析了尖晶石LiMn2O4作为正极材料容量衰减的机理及其改进措施,最后简单总结了锰酸锂的多种合成方法。

    Analyzed the reason about attenuation of Spinel LiMn_2O_4 and illuminated some existing synthesize methods of LiMn_2O_4 to improve the performance of this cathode materials .

  7. 用高温固相法合成尖晶石型锰酸锂(LiMn2O4)电极材料。

    Spinel lithium manganate ( LiMn2O4 ) was synthesized by high temperature solid-state reaction .

  8. 用锰酸锂和包覆镍酸锂质量比为1∶1的复合正极材料组装AA型锂离子电池,对其循环性能、热稳定性和耐过充性进行了研究。

    The AA size lithium ion batteries were assembled using the composite of LiCoO_2-coated LiNiO_2 and LiMn_2O_4 as ( cathode ) materials with the ratio 1 ∶ 1 in weight . The cyclic performance , thermal stability and overcharge performance of the batteries were studied .

  9. 在正极材料方面,通过与其他正极材料的对比,研究锰酸锂(LiMn2O4)的材料特性,以及性能研究。

    In anode materials , By comparison with other cathode material , research study on the materials properties and performance of lithium manganese oxide ( LiMn2O4 ) .

  10. 实验结果表明:此方法合成的锰酸铁及其掺杂镁、银的化合物粒径尺寸小于30nm,且该方法减少了制备工序,利于掺杂,易于制备;

    The results of experiment showed that the crystal size of FeMnO_3 and FeMnO_3 doped with Mg or Ag was less than 30 nm , and this method could reduce preparation procedure . It was beneficial to doping and preparing .

  11. 结果表明,机械化学法可以制成超细的无定形混合粉体,将这种粉体在973K下煅烧5h可以获得纳米锰酸镧粉体。

    The results indicate that an amorphous phase of mixtures can be efficiently activated by the mechanochemical process . Once such ground powder mixture being further annealed at a lower temperature of 973K for 5 hours , crystal LaMnO_3 with nanoscale particle size was thus formed .

  12. 锰酸锂在锂电池中的制备及应用

    Preparation and Application of Lithium Manganate in Production of Lithium Cell

  13. 掺锶锰酸镧薄膜的制备工艺及电性能研究

    Preparation Technology and Electrical Property of Strontium Doped Lanthanum Manganate Films

  14. 钴镧掺杂富锂型锰酸锂制备及其性能

    Preparation and Performance of Co and La Co-doped Li-rich Lithium Manganate

  15. 锰酸锂的制备及其在中性电解液中的电容性能

    Preparation and capacitive performance of lithium manganate in neutral electrolyte solutions

  16. 耐高锰酸钠腐蚀的富锌环氧涂料

    Discussion on the Corrosion Resistant of Epoxy Resin Coating from Sodium permanganate

  17. 亚锰酸镧及其A位掺杂物的结构与缺陷

    The Defect Structures of Undoped and A - site Doped Lanthanum Manganites

  18. 稀土锰酸盐纳米颗粒复合体系的软化学制备及磁电阻增强效应

    Soft chemistry synthesis and enhanced magnetoresistance of granular composites of lanthanum manganites

  19. 尖晶石锰酸锂正极材料的离子掺杂改性研究

    A Study on the Modification of Spinel Lithium Manganese by Ion Doping

  20. 采用自模板法制备了分级结构的锰酸锂微球,微球是由初级纳米颗粒和纳米片组装而成。

    The microsphere is assembled by primary nano-plates / particles .

  21. 掺杂镍对锰酸锂电化学性能的影响

    Electrochemistry influence of nickel (ⅱ) additive in lithium manganese oxide

  22. 生成的锰酸钾与鲁米诺或荧光素缓慢地发生反应;

    The produce potassium manganate reacted with luminol or fluorescein very slowly ;

  23. 锰酸镧电极渗透钴改性的机制研究

    Mechanism of Infiltrated Cobalt Oxide Effect on LSM - YSZ Cathode Performance

  24. 锰酸锂动力锂离子二次电池中主要化学元素的回收研究

    Recycling of Major Elements in LiMn_2O_4-Based Lithium-Ion Power Battery

  25. 而且这种类球形的锰酸锂具有更高的压实密度。

    And this spherical has a greater tap density .

  26. 基于尖晶石锰酸锂混合材料的应用

    The application of mixed material based on spinel LiMn_2O_4

  27. 高锰酸钠去除水中苯胺的动力学

    Kinetics on Aniline Removal from Water by Sodium Permanganate

  28. 碳酸锂和四氧化三锰合成锰酸锂的工艺优化研究

    Optimization for synthesis process of lithium manganate from lithium carbonate and trimanganese tetroxide

  29. 层状锰酸锂的制备及改性锂离子电池正极材料层状氧化锰锂的研究进展

    Progress on layered lithium manganese oxides as cathode materials of lithium-ion rechargeable batteries

  30. 锰酸镧钙钛矿型复合氧化物的制备、表征及应用研究

    Preparation , Characterization and Application of LaMnO_3 Perovskite-type Oxides