Electrochemical impedance spectra (EIS) of a metal hydride electrode were interpreted by means of an equivalent circuit.
通过试验测得金属氢化物电极的电化学交流阻抗谱(EIS),经过分析得到该电极的等效电路图。
The results shows that the discharge potential plateau of metal hydride electrode is very lower and the polarization is larger at low temperature.
实验结果表明,氢化物电极低温放电电位平台很低,电极极化大。
The average value of hydrogen diffusion coefficient in metal hydride(MH) electrode was measured by constant current discharge method.
利用恒流放电法测定了金属氢化物(MH)电极中氢原子扩散系数的平均值。
The relations between electronic structure and stability of the hydride, thermodynamic investigation and electrode reaction mechanism were summarized in detail.
内容主要涉及贮氢合金的电子结构与氢化物稳定性之间的关系,合金材料的热力学研究,合金电极反应等方面。
For identifying various electrode polarization during discharge of nickel metal hydride battery, a transient technique current step method was employed.
利用暂态技术电流阶跃法对镍氢电池的正负极在放电过程中的电化学极化、浓差极化及欧姆极化进行了研究。
For identifying various electrode polarization during discharge of nickel metal hydride battery, a transient technique current step method was employed.
利用暂态技术电流阶跃法对镍氢电池的正负极在放电过程中的电化学极化、浓差极化及欧姆极化进行了研究。
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