The result indicated that the oxygen reduction reaction proceeded by the four-electron pathway mechanism on larger Ag particles, and proceeded by the four-electron pathway and the two-electron pathway, simultaneously, on finer Ag particles.
结果表明,在粒径较大的Ag颗粒上,氧还原反应以四电子路径进行;在粒径较小的Ag颗粒上,氧还原反应以四电子路径和二电子路径同时进行。
参考来源 - [Ag(L)(bbi)]配位聚合物制备Ag/C催化剂及氧在Ag/C上还原反应·2,447,543篇论文数据,部分数据来源于NoteExpress
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。
Generally, the oxygen reduction and evolution is a two-electron chemical reaction.
讨论了氧还原和氧析出时的电化学反应机理。
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。
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