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Influence of Sn Content, Nanostructural Morphology, and Synthesis Temperature on the Electrochemical Active Area of Ni-Sn/C Nanocomposite: Verification of Methanol and Urea Electrooxidation

Authors
  • m. barakat, nasser a.
  • abdelkareem, mohammad ali
  • m. abdelghani, emad a.
Publication Date
Apr 03, 2019
Source
MDPI
Keywords
Language
English
License
Green
External links

Abstract

C. Practical verification was achieved by investigation of the electrocatalytic activity toward methanol and urea oxidation. The results confirmed that the activity is directly proportionate to the ESA, especially in the case of urea oxidation. Moreover, beside the distinct increase in the current density, at the optimum calcination temperature and co-catalyst content, a distinguished decrease in the onset potential of both urea and methanol oxidation was observed.

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