燃料电池用FeNi/NrGO纳米复合催化剂的电镜研究

Warapa Susingrat, T. Sarakonsri, Nutpaphat Jarulertwathana, J. Jakmunee, K. D. Pham, Chung Hoeil
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引用次数: 3

摘要

采用电沉积法制备了氮掺杂石墨烯催化剂负载的高效低成本FeNi纳米颗粒,用于氧还原反应。用三聚氰胺对球磨石墨烯进行热退火,得到NG。XRD (x射线衍射)、Raman(拉曼)和XPS (x射线光电子能谱)分析表明,该材料具有低无序度的多层结构,并具有吡啶- n的特征。室温下,在-7.0和-6.0 V电压下静电位沉积了100 s的FeNi。乙二醇溶液中FeCl2·4H2O和NiCl2·6H2 O的浓度不同。XRD谱图证实了FeNi合金的形成,SEM(扫描电子显微镜)分析结果表明,0.025 M FeNi溶液在NG颗粒上覆盖了直径为50-100 nm的球形分散的FeNi纳米颗粒,部分呈珊瑚状枝晶簇状。在其他条件下只观察到球形颗粒。颗粒的平均大小没有变化趋势。CV分析表明,在0.50 M和-7.0 V条件下制备的催化剂具有最小的粒径,比其他Pt/C催化剂和商用Pt/C催化剂具有更高的性能。因此,该催化剂有望在ORR中具有良好的性能。
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Electron Microscopy Investigation of FeNi/NrGO Nanocomposite Catalysts for Fuel Cells Application
High efficiency but low cost FeNi nanoparticles supported on NG (nitrogen-doped graphene) catalysts for ORR (oxygen reduction reaction) were prepared by electrodeposition method. NG was obtained via thermal annealing of ball milled graphene with melamine. XRD (X-ray diffraction), Raman, and XPS (X-ray photoelectron spectroscopy) analyses showed multiple layers with a low degree of disorder and characteristic of pyridinic-N were a major feature. The deposition of FeNi was carried out potentiostatically with voltage of -7.0 and -6.0 V for 100 s at room temperature. Different concentration of FeCl2·4H2O and NiCl2·6H2 O in ethylene glycol solution was varied. XRD patterns confirmed FeNi alloy formation and SEM (scanning electron microscopes) images reviewed that 0.025 M FeNi solution achieved spherically dispersed FeNi nanoparticles with diameters of 50-100 nm cover on NG particles and some parts appear as corals shape dendrite cluster. Only spherical particles were observed in other conditions. Average sizes of particle vary without trend. CV analysis shows that catalysts prepared with 0.50 M and at -7.0 V which has the smallest particle sizes, gave higher performance over others and commercial Pt/C catalysts. Therefore, this catalyst is expected to have good performance in ORR.
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