本发明涉及一种新型复合电极材料及其制备方法,属于电化学电极材料技术领域。
The invention relates to a novel composite electrode material and a preparation method thereof, pertaining to the technical field of electrochemical electrode materials.
利用极化曲线测试法分析了不同碳材料和不同方法制备的铂碳复合电极的塔菲尔常数。
With the method of the polarization curves test, the Tafer constants of the platinum carbon composite electrodes made by different carbon materials and different preparation were tested.
采用真空自耗电极电弧熔炼制成钕氧化物颗粒增强钛基复合材料。
The neodymide particulate reinforced titanium matrix composites were made by vacuum arc remelting.
因此,将铂炭复合材料作为离子膜燃料电池电极材料时,铂含量高的铂炭复合电极更有利于电化学反应的进行。
Therefore, when the electrodes are used for the ion exchange membrane fuel cells, the electrodes with higher platinum contents are more favourable for electrochemical reaction process.
本文以几种碳—陶复合材料为电极材料制备离子敏感电极。
Several carbon-ceramic composites were used as elcctroactive materials to fabricate ion sensitive electrodes.
除了传统的螺线管,工作电极还可由打孔的金属筒、金属网、甚至复合材料制成。
Besides the traditional helical electrode, the working electrode can be cylinders made from metal plates, metallic meshes or even composite materials.
利用在SSC-LSGMC5复合电极与LSGMC5电解质片之间加入与电解质相同材料的夹层的方法,提高了电极性能。
LSGMC5 interlayer was added between SSC-LSGMC5 composite electrode and LSGMC5 electrolyte flake, which had improved the cathode performance.
利用在SSC-LSGMC5复合电极与LSGMC5电解质片之间加入与电解质相同材料的夹层的方法,提高了电极性能。
LSGMC5 interlayer was added between SSC-LSGMC5 composite electrode and LSGMC5 electrolyte flake, which had improved the cathode performance.
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