嵌锂机理,Li ion intercalation mechanism,在线英语词典,英文翻译,专业英语

1) Li ion intercalation mechanism

嵌锂机理

2) lithium insertion

嵌锂

Structure of carbon materials prepared from coal and its performance of lithium insertion;

煤基炭材料的结构及其嵌锂行为

3) lithium intercalation

嵌锂

The microstructure and electrochemical lithium intercalation of artificial graphite granules with coating modification are analyzed with the help of SEM,FTIR,X-ray diffraction and electrochemical tests.

采用现代仪器测试和恒电流充放等电化学测试手段,对包覆修饰石墨微观结构与嵌锂电化学进行分析。

4) lithium intercalating capacity

嵌锂容量

The results indicated when Cu and Al were used as anode and cathode current collectors respectively, they both (exhibited) the properties of low lithium intercalating capacity, high electrochemical stability and decreasing the electrode polarization.

结果表明:Cu和Al分别作为锂离子电池负极和正极集流体时,都具有嵌锂容量小、高电化学稳定性、降低电极极化的特点。

5) intercalation potential

嵌锂电位

Explanation of the effect of doping on intercalation potential of cathode materials LiNi_(1-y)M_yO_2;

掺杂元素对LiNi_(1-y)M_yO_2嵌锂电位影响的解析

6) lithium intercalated graphite

嵌锂石墨

Several small models of graphite, lithium intercalated graphite (LIG) a nd lithium have been calculated at the ab initio/HF and DFT/B3LYP levels wit h th e 6-31G and 6-31G * basis sets to explore the charging-discharging mechanism of LIG as a negative electrode in the secondary lithium battery.

理论计算结果表明 ,嵌锂石墨LIG (lithiumintercalatedgraphite)充放电机制是锂在石墨碳层间可逆嵌脱 ,同时伴随着锂与碳层间发生电荷连续转移和碳层堆积方式改变的协同过程 ;计算结果也明确证实 ,嵌锂石墨嵌入脱出锂离子的过程就是锂离子二次电池储存与释放能量的过程。

参考词条

嵌锂化合物可逆嵌锂容量嵌锂阳极化合物嵌锂阴极化合物嵌锂深度和可逆性巴彦呼舒凹陷带状疱疹病毒

补充资料：锂蒙脱石,锂皂石,汉克托石

CAS：12173-47-6
中文名称：锂蒙脱石；水辉石；锂蒙脱石,锂皂石,汉克托石
英文名称：Hectorite；Veegumt；hectorite(clay mineral)；hectorite(claymineral)

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

首页 \| 翻译 \| 影视 \| 论坛 \| 索引嵌锂过程嵌锂性能嵌锂材料化学嵌锂嵌锂氧化钒电化学嵌锂

1) Li ion intercalation mechanism 嵌锂机理 2) lithium insertion 嵌锂 1. Structure of carbon materials prepared from coal and its performance of lithium insertion; 煤基炭材料的结构及其嵌锂行为 3) lithium intercalation 嵌锂 1. The microstructure and electrochemical lithium intercalation of artificial graphite granules with coating modification are analyzed with the help of SEM,FTIR,X-ray diffraction and electrochemical tests. 采用现代仪器测试和恒电流充放等电化学测试手段,对包覆修饰石墨微观结构与嵌锂电化学进行分析。 4) lithium intercalating capacity 嵌锂容量 1. The results indicated when Cu and Al were used as anode and cathode current collectors respectively, they both (exhibited) the properties of low lithium intercalating capacity, high electrochemical stability and decreasing the electrode polarization. 结果表明:Cu和Al分别作为锂离子电池负极和正极集流体时,都具有嵌锂容量小、高电化学稳定性、降低电极极化的特点。 5) intercalation potential 嵌锂电位 1. Explanation of the effect of doping on intercalation potential of cathode materials LiNi_(1-y)M_yO_2; 掺杂元素对LiNi_(1-y)M_yO_2嵌锂电位影响的解析 6) lithium intercalated graphite 嵌锂石墨 1. Several small models of graphite, lithium intercalated graphite (LIG) a nd lithium have been calculated at the ab initio/HF and DFT/B3LYP levels wit h th e 6-31G and 6-31G * basis sets to explore the charging-discharging mechanism of LIG as a negative electrode in the secondary lithium battery. 理论计算结果表明 ,嵌锂石墨LIG (lithiumintercalatedgraphite)充放电机制是锂在石墨碳层间可逆嵌脱 ,同时伴随着锂与碳层间发生电荷连续转移和碳层堆积方式改变的协同过程 ;计算结果也明确证实 ,嵌锂石墨嵌入脱出锂离子的过程就是锂离子二次电池储存与释放能量的过程。参考词条嵌锂化合物可逆嵌锂容量嵌锂阳极化合物嵌锂阴极化合物嵌锂深度和可逆性巴彦呼舒凹陷带状疱疹病毒补充资料：锂蒙脱石,锂皂石,汉克托石 CAS：12173-47-6 中文名称：锂蒙脱石；水辉石；锂蒙脱石,锂皂石,汉克托石英文名称：Hectorite；Veegumt；hectorite(clay mineral)；hectorite(claymineral) 说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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