Electrocatalysis of oxygen reduction and hydrogen oxidation in platinum dispersed on tungsten carbide in acid medium

Electrocatalysis of oxygen reduction and hydrogen oxidation in platinum dispersed on tungsten carbide in acid medium

Tungsten carbide dispersed on a high surface area carbon (W2C/C) prepared by a sonochemical method was used as the support of a Pt-based electrocatalyst (Pt-W2C/C). The resulting materials were tested for two important reactions with practical interest in fuel cells, that is, the oxygen reduction an...

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Veröffentlicht in:Journal of solid state electrochemistry 2007-11, Vol.11 (11), p.1541-1548
Hauptverfasser: Santos, L. G. R. A., Freitas, K. S., Ticianelli, E. A.
Format: Artikel
Sprache:eng
Schlagworte:
Catalysts
Chemical reactions
Discharge
Dispersion
Electrocatalysts
Fuel cells
Hydrogen
Oxidation
Oxygen
Reduction
Rotating disks
Sonochemical reactions
Tungsten carbide
Voltammetry
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container_end_page 1548
container_issue 11
container_start_page 1541
container_title Journal of solid state electrochemistry
container_volume 11
creator Santos, L. G. R. A.
Freitas, K. S.
Ticianelli, E. A.
description Tungsten carbide dispersed on a high surface area carbon (W2C/C) prepared by a sonochemical method was used as the support of a Pt-based electrocatalyst (Pt-W2C/C). The resulting materials were tested for two important reactions with practical interest in fuel cells, that is, the oxygen reduction and hydrogen oxidation reactions, in acid medium. The electrochemical techniques considered were cyclic voltammetry, linear sweep voltammetry, and steady-state polarization curves, obtained utilizing an ultrathin catalyst layer in a rotating ring–disk electrode. The results showed that the Pt-W2C/C catalyst led to a remarkable enhancement of the oxygen reduction in acid medium, when compared to the standard Pt/C, both following a four-electron mechanism. The hydrogen oxidation reaction showed similar kinetics on Pt-W2C/C and Pt/C following the direct discharge mechanism on both catalysts. The W2C/C support presented remarkable activity for the hydrogen oxidation reaction, most probably after the Heyrovsky–Volmer mechanism at low overpotential and the direct discharge irreversible mechanism at high overpotentials.
doi_str_mv 10.1007/s10008-007-0350-0
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subjects Catalysts
Chemical reactions
Discharge
Dispersion
Electrocatalysts
Fuel cells
Hydrogen
Oxidation
Oxygen
Reduction
Rotating disks
Sonochemical reactions
Tungsten carbide
Voltammetry
title Electrocatalysis of oxygen reduction and hydrogen oxidation in platinum dispersed on tungsten carbide in acid medium
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