Nanometals Particles/Zeolite Modified Anode for Direct Ethanol Fuel Cells
Emara, E., OUF, A., Ibrahim, A., El‐Shafei, A. (2024). Nanometals Particles/Zeolite Modified Anode for Direct Ethanol Fuel Cells. EKB Journal Management System, 66(3), 17-26. doi: 10.21608/mjcc.2024.411475
Esraa Emara; A. M. A. OUF; A. A. Ibrahim; A. A. El‐Shafei. "Nanometals Particles/Zeolite Modified Anode for Direct Ethanol Fuel Cells". EKB Journal Management System, 66, 3, 2024, 17-26. doi: 10.21608/mjcc.2024.411475
Emara, E., OUF, A., Ibrahim, A., El‐Shafei, A. (2024). 'Nanometals Particles/Zeolite Modified Anode for Direct Ethanol Fuel Cells', EKB Journal Management System, 66(3), pp. 17-26. doi: 10.21608/mjcc.2024.411475
Emara, E., OUF, A., Ibrahim, A., El‐Shafei, A. Nanometals Particles/Zeolite Modified Anode for Direct Ethanol Fuel Cells. EKB Journal Management System, 2024; 66(3): 17-26. doi: 10.21608/mjcc.2024.411475

Nanometals Particles/Zeolite Modified Anode for Direct Ethanol Fuel Cells

Mansoura Journal of Chemistry
Volume 66, Issue 3, August 2024, Page 17-26  XML PDF (1.44 MB)
Document Type: Original Article
DOI: 10.21608/mjcc.2024.411475
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Authors
Esraa Emara* ; A. M. A. OUF; A. A. Ibrahim; A. A. El‐Shafei
Chemistry department, Faculty of science, Mansoura University
Abstract
Ethanol electrooxidation is crucial for fuel cells. However, a significant challenge in ethanol electrocatalysis is the breaking of the C-C bond to form CO2 at lower overpotentials. Herein, nickel nanoparticles modified deposited on zeolite was developed for electrocatalytic oxidation of ethanol in alkaline media. The nickel modified zeolite (Ni/Z) was derived by electrodeposition method on glassy carbon (GC) at 25 ℃ under an N2 gas. The composite possesses an efficient catalytic activity due to Ni nanoparticles have high catalytic activity, cost-effectiveness and durability. Moreover, the presence of the zeolite support accelerates the ethanol oxidation reaction (EOR) due to its high conductivity and surface area which increases the adsorption of ethanol and OH- species at lower potentials. Using scanning electron microscopy (SEM), the as-synthesized zeolite was studied to determine the morphology structure. Cyclic voltammetry shows that EOR onset potential and current density of (Ni/20%Z/GC) electrode is strongly shifted to negative potential (Eonset= 0.440 V) and higher current value (Ipa= 26.01 mA/cm2), respectively.
Keywords
Electrochemical oxidation; Fuel cell; Transition metal ion; Zeolite
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