lithiation
英
美
网络 锂化; 锂化反应
双语例句
- A novel lithiation of electrochromic films is proposed.
提出了一种新的电致变色薄膜的锂化方法。 - Study on Lithiation of Electrochromic Films
电致变色薄膜锂化技术的研究 - The fabrication of all solid state electrochromic device ( EC) is very complex, but hydrogenation or lithiation of EC materials is also a key to preparing the same.
全固态电变色器件制作工艺复杂,氢化(或锂化)工艺是制备WO3电变色器件的关键技术。 - Studies on Deformation and Dissolution Behavior of Porous Nickel During the Oxidation/ Lithiation in Molten Carbonates
多孔Ni在熔融碳酸盐中原位氧化/锂化时形变及溶解行为的研究 - The kinetics of lithiation for polybutadiene ( PB) with 1,2-and 1,4-units contents of 98% and 92%, respectively, was investigated at 70 ° C, by using n-BuLi/ TMEDA ( tetramethylethanediamine) as metallizing reagent and cyclohexane as solvent.
以n-BuLi/TMEDA(四甲基乙二胺)为金属化试剂,环己烷为溶剂,研究了1,2-结构和1,4-结构分别为98%和92%的聚丁二烯(PB)在70℃时的锂化反应动力学。 - EIS for lithiation material shows that thickness of SEI film increased with the decrease of potential and charge transfer went through a process of easiness at the beginning, then difficulty, finally easiness.
材料的嵌锂态阻抗谱研究表明,随着嵌锂电位的降低,活性物质颗粒表面的SEI膜呈增厚趋势,并且电极内电荷的转移也经历从容易到困难再变得容易的过程。 - Study on dry lithiation of WO 3 films
电致变色氧化钨薄膜的干法锂化研究 - Scanning electron microscope ( SEM) and electrochemical impedance spectroscopy EIS results point out that the Mg-Li alloy performed better electrochemistry properties than pure Mg after lithiation.
通过扫描电子显微镜(SEM)和交流阻抗(EIS)比较,表明镁锂合金在嵌锂后比纯镁体现出更好的电化学性质。 - The result showed there were both lithiation/ delithiation of Li-ion and deposit/ dissolve of SEI actions in the full potential area.
结果表明,在这种体系中发生的不完全是锂离子脱嵌反应,同时包含着SEI膜的沉积-溶解过程。 - The existence of non-lithiation/ delithiation of Li-ion is the main reason of the phenomenon that discharge capacity is more than the charge capacity.
这种非锂离子脱嵌过程的存在是造成最初几次充放电容量大于理论容量的原因之一。 - Choosing two lithiation samples of better performance to make thermal batteries for engineering testing.
选择两种综合性能较好的锉化样品进行热电池电性能测试与比较,并对正极材料后处理进行工程放大研究。 - It has demonstrated that such contact problem can be eliminated completely in a three-electrode cell system. Thus the mechanism of SEI formation can be investigated through the EIS features and their evolution recorded in the first lithiation of graphite materials.
在三电极模拟电池中,这一接触阻抗可以被完全消除,因此从石墨负极在首次阴极极化过程中EIS谱特征及其变化可有效地研究SEI膜的成膜机制。 - The post-processing includes two parts: activation and lithiation.
后处理包括活化与锂化两个过程。