超细Ni，Co-石墨层间化合物的制备及其电极催化性能

来源期刊：中国有色金属学报1998年第4期

论文作者：杨松青 胡耐根 陈阳国 杨立阳

文章页码：657 - 662

关键词：镍； 钴； 石墨层间化合物

Key words：nickel; cobalt; graphite; intercalation compound

摘    要：采用二步法先合成钾的石墨层间化合物，然后再通过它合成Co, Ni系石墨层间化合物。化学分析、 X射线衍射、X射线光电子能谱及透射电镜的分析结果表明，这些化合物中金属主要以正2价形态存在，化合物的粒度为纳米级。用微电极测试了它们在KOH溶液中对氧还原的催化活性，发现C₄₈Co及C₄₈Ni为好，尤以C₄₈Co为优；加入C₄₈Co的气体扩散电极的电流密度，比未加的高68倍。用旋转圆盘电极研究了对氧的还原过程， 发现该过程同时受扩散与化学反应两种作用的混合控制，反应电子数为2。

Abstract: Graphite intercalation compounds(GICs)-Co and GICs-Ni have been successfully synthesized with the GICs-K as intermediates, and the compounds have been analyzed with chemical analysis, X-ray diffraction, X-ray photoelectron spectroscopy(XPS), transmission electron microscopy(TEM). The valences of Co and Ni in the compounds are both +2. The particle size of these compounds is in the order of nm. The experimental results of powder microelectrodes indicated that C₄₈Co is the best one for oxygen reduction among all the GICs-Co and GICs-Ni compounds studied. The soft embeded rotating disk electrode(RDE) experiments indicated oxygen reduction on the surface of GICs-Co is jointly controlled by diffusion and electr ochemical reaction, the number of electron transfer of oxygen reduction is 2. The preparation of peroxides using gas diffusion electrodes with catalyst C₄₈Co indicated that the cathodic current density is 68 times higher than that without C₄₈Co, the current efficiency is 93%.