1·The electrochemical reaction of dopamine at this electrode was studied.
研究了电极上多巴胺的电化学反应。
2·The possibility of using this electrochemical reaction for polyphenolic compound analysis is proposed.
提出电化学测试分析多酚类化合物的可能性。
3·An electrochemical reaction takes place at the electrodes and will continue as long as fuel is supplied.
只要有燃料供应,就可在电极产生电化学反应。
4·The electrochemical reaction mechanism of phenol at this electrode is studied by the cyclic voltammetry.
还对苯酚在蒙脱石修饰碳糊电极上的反应机理进行了探讨。
5·This paper studies on the cathode and anode electrochemical reaction from electrolysing manganese dioxide.
论述了电解二氧化锰阴、阳极的电化学反应并进行了热力学计算。
6·Traditionally, aqueous solution, organic solution and molten salts are used as electrolyte for electrochemical reaction.
在电化学反应体系中,通常水溶液、有机溶液及熔融盐被用作电解质。
7·Selection of proper electrode materials will accelerate electrochemical reaction rate, help electro chemical transfer of organics.
选用合适的电极材料可以加速电化学反应速率,有助于有机物的电化学转化。
8·In some electrochemical reaction, the electrode achievement in the vicinity of the solid material to the irregular shape of the branches grow outward.
在某些电化学反应中,电极附近成绩的固态物质,以不规则的树枝形状向外增长。
9·Based on the mathematical model of the single pore electrode, the effective three-phase boundary length of the electrochemical reaction is defined and calculated.
在单孔电极模型基础上定义了电化学反应的有效三相分界线长度概念,并给出了对应的计算方法;
10·This thesis briefly describes the battery charge and discharge processes in the electrochemical reaction, at the same time analyse a thyristor trigger conditions.
本文首先简要阐述了蓄电池在充放电过程中的电化学反应,同时介绍了晶闸管触发的条件。