The results show that the EIS of cathode reaction change with corrosion time.
结果表明,阴极反应的交流阻抗谱随着腐蚀时间发生变化。
Electrolysis: make the current through the electrolyte solution at the anode and cathode cause REDOX reaction process.
电解:使电流通过电解质溶液而在阳极,阴极引起氧化还原反应的过程。
The reaction at the cathode is described chemically as.
反应在阴极所描述的化学为。
In the cathode, substances such asmolecular oxygen or hydrogen peroxide are subsequently reduced in this processand so, in combination with the reaction at the anode, generate electricalpower.
阴极物质主要为氧分子或者过氧化氢,随后在电池反应中消耗,与阳极反应共同产生电能。
Simultaneously, a nondestructive chemical reaction (reduction) would proceed at the cathode, in most cases producing hydrogen gas on it.
同时,在阴极进行非破坏性反应(还原反应),多数情况下在阴极产生氢气。
They can inhibit reaction of cathode and anode, and thus be regarded as a mixed corrosion inhibitor.
该类缓蚀剂对阳极反应和阴极反应均有抑制作用,属于混合型缓蚀剂。
The oxygen reduction reaction that takes place at the fuel cell's cathode creates water as its only waste and it is there that up to 40 percent of a fuel cell's efficiency is lost.
对氧还原反应,发生在燃料电池的阴极地方创建作为其唯一的废水和它的存在,多达40燃料电池的效率是百分之丢失。
Lead into reduction reaction steps before, deposition of metal ions in the cathode near the surface or on the surface transformed.
前置转化步骤还原反应前,沉积金属离子在阴极表面附近或表面上发生转化。
The results show that: increasing temperature will lead to more methanol to permeate to the cathode, and increase the charge transfer resistance of cathodic oxygen reduction reaction;
只有采用大的空气流量,才会有效地防止水淹,加大氧气向催化剂层的传质,促进阴极反应的进行;
The cathode catalyst for oxygen reduction reaction is one of the most important factors that can affect the performance of fuel cell.
氧还原反应阴极催化剂对燃料电池的性能起着非常关键的作用。
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。
This paper studies the possibility of using nickel-nickel sulfide composite coating obtained by electrodeposition as the active cathode material for hydrogen evolution reaction in alkaline solution.
对用电沉积法获得镍-硫化镍复合沉积层作碱性溶液中析氢活性阴极材料的可能性进行了研究。
The results show that the charge transfer reaction of the cathode pro- cess is preceded by a homogeneous chemical reaction and a heterogeneous surfac a chemical reaction.
结果表明该阴极过程中存在均相前置化学转化与异相表面化学转化步骤。
First, the distance between the anode and cathode should be increased enough in order to limit the secondary reaction.
提高电流效率的途径有两条:一是增大阴、阳极间距,减小副反应的发生;
While hollow cathode being discharged, migration, diffusion, evaporation and sputtering of reaction products were analyzed.
论述了空心阴极放电时,其内部化学反应生成物的迁移、扩散、蒸发和溅射。
This is because of the coupling reaction between two alkyl compounds occurred by gaining electron from cathode, and aryl isocyanate reacted with high dispersed active magnesium on the cathode.
我们认为这是由于烷基异氰酸酯从阴极得到电子发生比分子偶联,芳基异氰酸酯则是与阴极析出的高分散的活性镁起作用。
This is because of the coupling reaction between two alkyl compounds occurred by gaining electron from cathode, and aryl isocyanate reacted with high dispersed active magnesium on the cathode.
我们认为这是由于烷基异氰酸酯从阴极得到电子发生比分子偶联,芳基异氰酸酯则是与阴极析出的高分散的活性镁起作用。
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