Mn2O3/Ag Nanoflakes as an Effective Electroscatalyst for Urea Oxidation in Alkaline Medium
Tolba, G. (2018). Mn2O3/Ag Nanoflakes as an Effective Electroscatalyst for Urea Oxidation in Alkaline Medium. EKB Journal Management System, 9(9th International Conference on Chemical & Environmental Engineering), 238-250. doi: 10.21608/iccee.2018.34667
Gehan M. K. Tolba. "Mn2O3/Ag Nanoflakes as an Effective Electroscatalyst for Urea Oxidation in Alkaline Medium". EKB Journal Management System, 9, 9th International Conference on Chemical & Environmental Engineering, 2018, 238-250. doi: 10.21608/iccee.2018.34667
Tolba, G. (2018). 'Mn2O3/Ag Nanoflakes as an Effective Electroscatalyst for Urea Oxidation in Alkaline Medium', EKB Journal Management System, 9(9th International Conference on Chemical & Environmental Engineering), pp. 238-250. doi: 10.21608/iccee.2018.34667
Tolba, G. Mn2O3/Ag Nanoflakes as an Effective Electroscatalyst for Urea Oxidation in Alkaline Medium. EKB Journal Management System, 2018; 9(9th International Conference on Chemical & Environmental Engineering): 238-250. doi: 10.21608/iccee.2018.34667

Mn2O3/Ag Nanoflakes as an Effective Electroscatalyst for Urea Oxidation in Alkaline Medium

The International Conference on Chemical and Environmental Engineering
Article 13, Volume 9, 9th International Conference on Chemical & Environmental Engineering, April 2018, Page 238-250  XML PDF (749.08 K)
Document Type: Original Article
DOI: 10.21608/iccee.2018.34667
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Author
Gehan M. K. Tolba
Chemical Engineering Department, Faculty of Engineering, Minia University, Minia, Egypt.
Abstract
Abstract
In this study, highly crystalline Ag-doped Mn2O3 nanoflakes were synthesized by a sol-gel process and used as an effective electrocatalyst for urea electrooxidation in alkaline-media fuel cells. Scanning electron microscope (SEM), X-ray diffraction (XRD), transmission electron microscope (TEM) and energy dispersive spectroscopy (EDS) were applied to characterize the structure and the morphology of the final product. The electrocatalytic performances were investigated by cyclic voltammetry (CV) and chronoamperometry (CA) tests.The prepared nanocatalyst shows a distinct electrocatalytic activity toward urea oxidation. The introduced Ag-doped Mn2O3 reveals a good stability at various applied voltages. The enhanced electrocatalytic oxidation of urea using Ag-doped Mn2O3 nanoflakes reveals a great potential for future applications in hydrogen production, remediation of urea-rich wastewater, and fuel cells.
Keywords
nanosilver; Nanoparticles; urea; Electooxidation; Electrocatalyst; fuel cells
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