The electrode material is the key to determine their electrochemical performances.
而电极材料是决定其电化学性能的关键。
In this dissertation, the electrochemical performances of perovskite bi-functional oxygen electrodes are studied.
本论文以系统研究钙钛矿型双功能氧电极的电化学性能为工作目的。
LiFePO4 is synthesized by chemical grinding method, and the structure and electrochemical performances are studied.
采用化学研磨法制备了磷酸铁锂,并对其结构和电化学性能进行了研究。
On this base the electrochemical performances and application range of different polymer electrolytes were discussed.
在此基础上讨论了各类聚合物电解质的电化学性能和应用范围。
The surface treatment of hydrogen storage alloy electrode is an effective method to improve its electrochemical performances.
贮氢合金电极的表面处理是改善其电化学性能的有效方法。
The electrochemical performances of the Li-ion batteries depend on the cathode materials, the anode materials and the electrolyte.
锂离子电池的电化学性能取决于正极材料、负极材料和电解质。
The effects of the direct magnetic field treatment on the microstructure and electrochemical performances of hydrogen storage alloys during their solidification process were studied.
研究了贮氢合金凝固过程中施加直流磁场处理对其组织结构和电化学性能的影响。
With increasing the additive, the thermodynamic characteristics, the electrochemical performances and the kinetic properties of the composite electrode alloy are significantly improved.
随着添加量的增大,复合电极合金的热力学特征、电化学性能以及动力学性能均有显著改善。
Electrochemical performances of different grid alloys, including the performances of corrosion resistance, gassing evolution and the impedance of corrosion layer, were studied systematically.
系统地研究了不同板栅合金的耐腐蚀性、析气性能、表面腐蚀层阻抗等电化学性能。
We take a sol-gel-esterification process to get nanometric LiMn 2 O 4 powder which has good electronic and electronic and electrochemical performances with good crystality and surface characteristics.
我们工作中采用了溶胶-凝胶-酯化合成法,在一定的热力学重结晶条件下得到结晶度高、表面性能好的超细晶材料,它具有好的电化学和电学性能。
Electrochemical intercalation characteristics of lithium ion in artificial graphite (AG) and the performances of AA size cell with it as the anode were studied in this paper.
研究了锂离子在人造石墨(AG)中的电化学嵌入特性和用它作负极材料时的电池性能。
These superior performances can be attributed to the higher reaction activity, lower electrochemical impedance and higher oxygen evolution potential for the nanostructured nickel hydroxide electrodes.
添加有纳米结构粉末的镍电极具有更高的反应活性及更小的电化学反应阻抗,充电时氧气析出电位也比较高,因而表现出优良的电化学性能。
These superior performances can be attributed to the higher reaction activity, lower electrochemical impedance and higher oxygen evolution potential for the nanostructured nickel hydroxide electrodes.
添加有纳米结构粉末的镍电极具有更高的反应活性及更小的电化学反应阻抗,充电时氧气析出电位也比较高,因而表现出优良的电化学性能。
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