磷酸锂

  • 网络lithium phosphate;lipon
磷酸锂磷酸锂
  1. 催化剂使用前后晶型不发生变化,在不同温度煅烧所得的晶型及差热曲线与试剂磷酸锂不同,与失活催化剂DTA曲线差别也很明显;

    The crystal phases and the DTA curves of the catalysts calcined at different temperatures were different from that of the lithium phosphate agent and the DTA curves of the deactivated catalyst were also different ;

  2. 离子色谱法测定磷酸锂中微量的杂质元素

    Determination of Potassium , Calcium and Magnesium Present as Impurities in Lithium Phosphate by Ion-Chromatography

  3. ICP-AES法测定六氟磷酸锂中21种杂质元素

    Determination of Twenty One Elements in Lithium Hexafluorophosphate by ICP-AES

  4. 结果IpsEmpress2玻璃陶瓷主要由二硅酸锂晶体和磷酸锂晶体组成,二者形成相互交错的三维网络式结构;

    Results IPS Empress 2 glass ceramic mainly consisted of lithium disilicate crystal , lithium phosphate and glass matrix , which formed a continuous interlocking structure .

  5. 电解质六氟磷酸锂分析方法的研究及应用

    Study and Application on the Analysis of Lithium Hexafluorophosphate

  6. 最后讨论了六氟磷酸锂生产过程存在的一些问题。

    Finally , some problems existing in lithium hexafluorophosphate production process were also discussed .

  7. 六氟磷酸锂生产工艺研究

    Studies of the production technology of lithium hexafluorophosphate

  8. 对离子色谱法测定磷酸锂中钾、钙、镁杂质离子的方法进行研究。

    Determination of NO chemical compound and hydrochloric in air sample by ion chromatography ;

  9. 制备锂电池电解质六氟磷酸锂的工艺探讨

    Research on the preparation of lithium hexafluorophosphate as a electrolyte for the lithium rechargeable batteries

  10. 过磷酸锂钕单晶的荧光

    Fluorescence in lithium neodymium ultraphosphate single crystals

  11. 六氟磷酸锂的水分测定

    The Determination of Water in Hexafluorophosphate Lithium

  12. 六氟磷酸锂的制备工艺新进展

    Progress in Preparation Techniques of LiPF_6

  13. 着重论述了锂离子二次电池的电解质及其导电性能,以及制备六氟磷酸锂的方法。

    The paper also concerns the electrolytes of lithium ion rechargeable batteries , their conductivity and preparation oflitheium hexafluorophosphate .

  14. 基于与卡尔-菲休试剂的反应用库仑滴定法测定了六氟磷酸锂中的微量水分。

    Trace amounts of moisture in lithium hexafluorophosphate was determined by coulometric titration based on the reaction with Karl-Fisher reagent .

  15. 不过,还有一些其他类型的锂离子电池——如磷酸锂铁技术——不使用任何钴原料。

    Still , there are some versions of the lithium-ion battery , such as the lithium iron phosphate technology , that does not use any cobalt .

  16. 以具有不同结构的LiCoO2薄膜为阴极、含氮磷酸锂薄膜为电解质以及金属锂薄膜为阳极,成功地制备了电化学性能不同的全固态薄膜锂电池。

    All-solid-state thin film batteries , comprised of LiCoO_ 2 cathode films with different structures , lithium phosphorous oxynitride electrolyte film and metallic lithium anode film , was successfully prepared and their properties were examined by chronopotentiometry .

  17. 用三种方法制备碱性磷酸锂催化剂,其中以磷酸钠为原料的沉积沉淀法与机械混合法制备的催化剂性能较好。

    The main content is as follows : 1 . Three methods were used to prepare basic lithium phosphate , of which the deposition-precipitation method using sodium phosphate as raw material and the mixing method was better .

  18. 探讨了焙烧温度、焙烧时间、pH值,锂过量系数对溶胶-凝胶法制备磷酸铁锂的电化学性能的影响。

    The effects of sintering temperature , sintering time , pH value , Li excess coefficient were studied .

  19. 研究表明:少量的Mn掺杂,不会影响磷酸钒锂的晶体结构。

    Phase Analysis by XRD shows that a small amount of Mn doped in lithium vanadium phosphate material will not affect the crystal structure .

  20. 第三章重点研究了SOC估算的几种方法,提出了适合磷酸铁锂电池使用的复合估算方法。

    The third chapter focuses on several methods of SOC estimated and proposed compound estimated method for the phosphate iron lithium of SOC estimated .

  21. 磷酸铁锂电池是新材料,绿色环保,对环境无污染,已通过ROHS检测;

    Lithium iron phosphate batteries are new materials , environmental protection , environmental pollution , has passed ROHS testing ;

  22. 用X射线衍射(XRD)、能谱分析(EDS)和扫描电镜(SEM)分析方法来研究不同温度条件(600~800℃)对磷酸铁锂材料的物相结构和形貌的影响。

    The effects of different synthesis temperature conditions ( 600 ~ 800 ℃) were discussed and the crystalline structure , morphology of the samples were investigated by X-ray diffraction , energy dispersive spectrometer and scanning electromicroscope .

  23. 同时,用水热法对反应原料进行了预处理,制备了碳包覆的磷酸钒锂[Li3V2(PO4)3/C]正极材料。

    At the same time , another cathode material , lithium vanadium phosphate [ Li3V2 ( PO4 ) ] , was also pretreated by hydrothermal method , and then carbon coated by carbon thermal reduction .

  24. 论文根据48V磷酸铁锂电池组充电技术要求,设计了快速充电主电路拓扑及其控制方式,搭建了充电实验平台,完成了对电池组的快速充电实验。

    Based on the charging requirements of 48V lithium iron phosphate battery pack , designed a rapid charging main circuit topology and its control method , built charging experimental platform and completed the battery fast charging experiment .

  25. 分别对超级电容与蓄电池的直接并联和基于Buck-Boost变换器并联的方式进行了脉冲式放电的仿真分析和实验研究;论文还特别针对超级电容与磷酸铁锂电池的直接并联混合进行了实验分析。

    Respectively , directly paralleled Supercapacitor / Battery hybrid energy storage and based on the paralleled Buck-Boost power converter with the pulse discharging was simulation analyzed and experimental studied ; This paper also specifically carries experimental analysis on supercapacitor and lithium iron phosphate batteries direct parallel hybrid .

  26. 将砂磨制备的碳纳米管导电浆料应用于磷酸铁锂电池中,测试了电池的各方面性能,并且与传统导电剂Super-p进行了对比。

    CNT conductive slurry prepared by sand grinding process was used as conductive additive in lithium ion power battery . The performances of battery using CNT or Super-p as conductive additives were tested .

  27. 利用正交实验L33(9)探讨磷酸铁锂正极的制备工艺对不同倍率下电极工作性能的影响,并对电解液的匹配性进行研究。

    The influences of the recipes for preparing the LiFePO_4 cathode and the compositions of the electrolyte on the electrochemical performance of the prepared cathodes were studied by using the L33 ( 9 ) Latin orthogonal experiment method .

  28. 磷酸铁锂材料连续式制备中的气氛净化技术研究

    Study on the Atmosphere-purified Technology for the Continuous-pattern-preparation Equipment of LiFePO_4

  29. 饱和空气暴露对水热法制备的磷酸铁锂的影响

    Effect of saturated air exposure on LiFePO_4 synthesized via hydrothermal route

  30. 沉淀-碳热还原联合法制备橄榄石磷酸铁锂

    Synthesis of lithium iron phospho-olivines by aqueous precipitation and carbothermal reduction