Transition Bimetal MOF Embedded Carbon Felt as Anode Electrode for Ethanol Fuel Cell

The detection of resources to replace costly noble metals and their alloy for constructing effective non noble metal electrocatalysts has been received interest. Recently, metal-organic frameworks (MOFs) provide an opening for the construction of mixed metals distribution in the substrate carbon without any carbon precursor augmentative. In this study, porous NiCu-MOF nanosheets were supported on 3D carbon felt substrate as an anode electrode. The EOR activity of catalysts is investigated via CV, EIS, CA electrocatalysts with stability is essential. MOFs which along with many single and bi/multimetallic nanomaterials employed as electrodes display notable effects on the electrocatalytic properties. To improve EOR yield with nonprecious group metals, the direct growing of catalysts onto supports such as carbon felts (known as ‘gas diffusion layer, GDL’) lets a better catalyst usage. Herein, for the reason of relatively low price, porosity, flexibility, and stability against acidity carbon felt were applied to a PEMFC. II. Methods and CP techniques. Remarkably, the The composition of as-prepared samples obtained NiCu-MOF/CF electrode was revealed by FTIR and the delivered a power density of 6.074 mW cm-2 with a cell voltage of 0.87 V in 60 C.