The influence of hydrogen peroxide on carbon monoxide electrooxidation at Pt/C and Pt:Ru/C electrodes

SILVANA MARTÍNEZ; FERNANDO ZINOLA; GABRIEL PLANES; OLMEDO GUILLÉN-VILLAFUERTE; JOSÉ LUIS RODRIGUEZ; ELENA PASTOR

JOURNAL OF SOLID STATE ELECTROCHEMISTRY (PRINT)

Año: 2007 vol. 11 p. 1521 - 1529

1432-8488

Polymer electrolyte fuel cells constitute one of the most important efficiency energy converters for noncentralised uses. However, the use of fuels arising from reformate processes significantly lowers the current efficiency because of anodic catalytic poison coming from adsorbed carbon monoxide (COad). In this work, the influence of the  addition of hydrogen peroxide in the flor current is studied, considering the adsorption and electrochemical oxidation of carbon monoxide on carbon-supported Pt (20% Pt/Vulcan) and Pt:Ru (1:1, 20% Pt:Ru/Vulcan) catalysts in 2 M sulphuric acid. The investigation was conducted applying cyclic voltammetry and on-line differential electrochemical mass spectrometry. A series of experiments has been performed to investigate the influence of the temperature as well as the time of contact and the concentration of hydrogen peroxide. Oxidation of COad to carbon dioxide occurs at lower potentials in the presence of hydrogen peroxide. Moreover, it is possible to remove ca.70% of COad on Pt/C electrodes. On the other hand, for PtRu/C electrodes, similar charge values to those of Pt/C electrodes were obtained for the CO stripping, but the process occurs at more negative potentials. In this case, the effect of partial desorption for COad by interaction with hydrogen peroxide is added to the bifunctional mechanism usually considered for this alloy.