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lithium plasma是什么意思

中文翻译锂等离子体

网络释义

1)lithium plasma,锂等离子体2)lithium ion conductor,锂离子导体3)Lithium ionic conductor,锂离子导体4)determination of trace Li by ICP-MS,微量锂电感耦合等离子体质谱测定5)lithium fast ion conductor,锂快离子导体6)lithium superionic conductors,锂快离子导体

用法例句

    The composition, structure and state of oxysulfide glassy lithium ion conductors for Li_2S-SiS_2-LiBO_2-LiCl system were studied by means of XPS.

    本文采用光电子能谱分析方法,首次研究Li_2S-SiS_2-LiBO_2-LiCl体系硫氧化物玻璃锂离子导体的组成、结构和状态。

    The research of the new and high conductivity material of lithium ionic conductor is always an interesting issue in the material field due to its low potential, light weight and providing high cell voltage and energy density.

    由于锂具有较负的电极电势和较轻的重量,可以为电化学器件提供高的电池电压和能量密度,所以锂离子导体高电导率新材料的研究一直是材料研究领域倍受关注的课题之一。

    The study of Li_2O-SiO_2-VO_(2.5)-PO_(2.5) lithium fast ion conductor;

    Li_2O-SiO_2-V_2O_5-P_2O_5体系的锂快离子导体的研究

    The study of new lithium fast ion conductors Li_(1+2x)Al_xTi_yGe_(2-x-y)Si_xP_(3-x)O_(12) system;

    锂快离子导体Li_(1+2x)Al_xTi_yGe_(2-x-y)Si_xP_(3-x)O_(12)系统的研究

    Pure analytic reagents were used to prepare new lithium fast ion conductors Li_(1.

    以LiTi2(PO4)3为基,用分析纯原料经高温固相反应(850、900、950℃)制得锂快离子导体材料Li1。

    Advance and prospects on lithium superionic conductors;

    锂快离子导体研究进展与展望

    The Synthesis,Characterization and Application of Mineral Lithium Fast Ion Conductors and Electrode Materials for Lithium Ion Batteries

    矿物锂快离子导体及锂离子电池电极材料的合成、表征与应用研究

    Study of Some Lithium Fast Ion Conductors and Cathode Materials of Lithium Ion Batteries;

    某些锂快离子导体及锂离子电池正极材料的研究

    Study of Lithium Fast Ion Conductors and Spinel-structured Cathode Materials for Lithium Ion Battery;

    锂快离子导体及尖晶石结构的锂离子电池正极材料的研究

    Crystal structure of perovskite-type lithium fast ion conductors and two conduction mechanisms for Li~+

    钙钛矿型锂快离子导体结构及Li~+迁移机理

    Synthesis and Modification of Lithium Superionic Conductors of Lithium Silicate Ramification and NASICON Type and Study on Property;

    Li_4SiO_4衍生物和NASICON型锂快离子导体的合成与改进及性能研究

    cooled lithium ion-drifted semiconductor detector

    冷却锂离子漂移半导体探测器

    The reasons of rapid decline in cycle life of Li-ion battery

    锂离子电池循环寿命快速衰减的原因

    Study on Inorganic Crystal Growth Induced by Polymer and Preparation of Polypropylene Separator Film for Lithium Battery;

    聚合物诱导无机晶体生长的研究及聚丙烯锂离子电池隔膜的研制

    Study of the Cerenkov Type Second Harmonic Generation in Ion-implanted Lithium Niobate Planar Wavevguides;

    离子注入铌酸锂晶体光波导切伦科夫倍频转换效率研究

    Study on Waveguide Property of Ion-implanted LiNbO_3 Crystal Using Etching and Ellipsometry Techniques;

    利用刻蚀和椭偏技术研究离子注入铌酸锂晶体的波导特性

    STUDIES OF ELECTRIC PROPERTIES OF THE FAST IONIC CONDUCTOR Rb_4Cu_(16)I_7Cl_(13)

    快离子导体氯碘铜化铷电性能的研究

    Research progress on preparation methods for precursors of lithium ion-sieve

    锂离子筛前驱体制备方法的研究进展

    The preparing of 50 Ah LiFePO_4 polymer Li-ion single cell

    50Ah LiFePO_4聚合物锂离子单体电池的制备

    Rapid Prediction of Capacity of Li-Ion Battery and Design of Li-Ion Battery Integration Testing System;

    锂离子容量快速预测及检测系统的实现

    Research on Expeditious Charge/Discharge Measuring System for Multichannel Lithium Ion Batteries;

    多通道锂离子电池快速充、放电系统研究

    BMIPF_6 as high temperature additive in LiPF_6-based lithium ion electrolytes

    BMIPF_6室温离子液体对锂离子电池高温性能的影响

    Research progress of ionic liquid-polymer electrolytes for lithium ion battery

    锂离子电池离子液体-聚合物电解质研究进展

    Study on Waveguide Property of Ion-implanted LiNbO_3 Crystal Using Ellipsometry

    用椭偏技术研究离子注入铌酸锂光波导特性

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