Influence of the Metallic Load of Pt/C and Pt0.6-Ru0.4/C Nanowires on the Electrochemical Oxidation of Methanol in Acid Medium

Influence of the Metallic Load of Pt/C and Pt0.6-Ru0.4/C Nanowires on the Electrochemical Oxidation of Methanol in Acid Medium

This work aimed on the development of platinum and platinum-ruthenium nanowires supported on carbon powder, via chemical reduction using formic acid as a reducing agent, and the study of electrooxidation of methanol in acidic medium on these catalysts. The metal load of the nanowires in relation to...

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Bibliographic Details
Published in:International journal of electrochemical science Vol. 12; no. 8; pp. 7502 - 7517
Main Authors: Almeida, Gláucia R.O., Sussuchi, Eliana M., de Meneses, Cristiano T., Salazar-Banda, Giancarlo R., Eguiluz, Katlin I.B.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-08-2017
Subjects:
direct methanol fuel cell
methanol electrooxidation
nanowires
Pt-Ru electrocatalysts
methanol electrooxidation
nanowires
Pt-Ru electrocatalysts
direct methanol fuel cell
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Summary:This work aimed on the development of platinum and platinum-ruthenium nanowires supported on carbon powder, via chemical reduction using formic acid as a reducing agent, and the study of electrooxidation of methanol in acidic medium on these catalysts. The metal load of the nanowires in relation to the substrate was varied from 20, 30 and 40% and their composition for the Pt–Ru/C nanowires was maintained at 60:40. The nanocatalysts were characterized by X-ray diffraction, X-ray fluorescence, transmission electron microscopy (TEM) and cyclic voltammetry, showing that the nanowires have the cubic face-centered structure of platinum. The chemical composition of the catalysts is close to nominal. The TEM images showed that Pt/C and Pt0.6Ru0.4/C nanowires were successfully synthesized by the chemical reduction method presenting nanowires with a diameter between 4 and 13 nm and a length between 15 and 20 nm. The Pt0.6Ru0.4/C 20% catalytic composite exhibit the lowest CO oxidation onset potential (0.34 V) which is 0.3 V more negative than the obtained for a commercial Pt/C catalyst. The current density of the CO-stripping peak at the Pt0.6Ru0.4/C 20% catalytic composite is also 3 times higher than for the commercial Pt/C. The incorporation of ruthenium in the Pt/C nanowires and their decrease in metallic loading increased their efficiency towards the electrooxidation of methanol. The nanowires Pt0.6Ru0.4/C are thus promising materials as anodes for use in direct methanol fuel cells.
ISSN:1452-3981
1452-3981
DOI:10.20964/2017.08.43