一种气体电极,如果以空气代替氧,即为空气电极。电极反应为2H2O+O2+4e-=4OH-,但此反应不易达平衡,故可逆氧电极难于实现。氧电极在电解水制取氧气,研制氢/氧燃料电池和金属空气电池等方面得到应用。因氧的阴极过程是碱性和中性介质中金属腐蚀的主要共轭过程,故在金属防腐研究中有重要意义。氯碱工业和氯酸盐电解工业中正研究把阴极释氢改为阴极耗氧以节约能耗。
Na 关键字: 电催化; NaxWO3; NaxWO3/Pt; 氧电极;[gap=856]Key words: electrocatalysis; NaxWO3; NaxWO3/Pt; oxygen electrodes
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经皮测氧电极 transcutaneous oxyqenelectrode
溶氧电极 OXYSENS ; StirrOx ; JENCO ; dissolved oxygen electrode
氧电极或华柏仪 Warburgs apparatus
双功能氧电极 bifunctional oxygen electrodes
氧电极测定 oxygen electrodes
氧电极法 Clark electrode
多孔氧电极 porous oxygen electrode
液相氧电极 Clark-type Oxygen Electrode
经皮氧电极 transcutaneous oxygen electrode
The performances of the oxygen electrode and zinc electrode were discussed for the zinc-air battery through the polarization curves of electrodes.
对锌-空气电池,通过电极极化曲线,讨论了氧电极和锌电极的性能。
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Simultaneously, the oxygen electrode is also a key factor which is used to determine the performance of the metal-air batteries.
同样地,氧电极也是金属-空气电池中决定其性能优劣的关键因素。
参考来源 - 新型高效氧电极催化剂的研究与评价·2,447,543篇论文数据,部分数据来源于NoteExpress
氧电极法测定线粒体的呼吸功能。
Respiratory function of mitochondria was measured by oxygen electrode method.
测量氧电极使用复杂的克拉克型氧电极。
Oxygen electrode measurement using sophisticated Clark type oxygen electrodes.
结果表明该氧电极具有双功能催化特性,但不完全可逆。
The result shows that oxygen electrodes have bifunctional catalysis activity but it is not completely reversible.
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