Electrooxidation of CO and methanol on well-characterized carbon supported PtxSn electrodes. Effect of crystal structure

The role of two intermetallic phases of PtSn, namely Pt3Sn (fcc phase) and PtSn (hcp phase) for the electrooxidation of CO and methanol has been evaluated. Carbon supported Pt3Sn and PtSn nanosized particles have been prepared by controlled surface reactions. The actual structure of the PtSn alloys...

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Bibliographic Details
Published in:International journal of hydrogen energy 2012-04, Vol.37 (8), p.7109-7118
Main Authors: Herranz, T., García, S., Martínez-Huerta, M.V., Peña, M.A., Fierro, J.L.G., Somodi, F., Borbáth, I., Majrik, K., Tompos, A., Rojas, S.
Format: Article
Language:English
Subjects:
Anodizing
DEMS
EC-IRAS
Methanol
Pt3Sn fcc
PtSn hcp
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Summary:The role of two intermetallic phases of PtSn, namely Pt3Sn (fcc phase) and PtSn (hcp phase) for the electrooxidation of CO and methanol has been evaluated. Carbon supported Pt3Sn and PtSn nanosized particles have been prepared by controlled surface reactions. The actual structure of the PtSn alloys has been evaluated and confirmed by means of XRD and HR-TEM studies which reveal the predominance of either the hcp or the fcc phase in each catalyst. The catalysts have been further characterized to identify the actual metal loading and Pt/Sn atomic ratio in order to eliminate particle size or metal loading effects on their electrocatalytic performance. The performance of the catalysts for the electrooxidation of CO and methanol has been evaluated by electrochemical techniques along with in situ techniques such as electrochemical coupled Infrared Reflection Absorption Spectroscopy (EC-IRAS) and differential electrochemical mass spectrometry (DEMS). Altogether, the results presented in this work reveal that Pt3Sn fcc is more active than PtSn hcp for the electrooxidation of CO and methanol and that the contribution of the hcp phase in those electrocatalytic processes is negligible. ► Catalysts containing either the Pt3Sn fcc or the PtSn hcp phase were prepared. ► The electrocatalytic performance of the fcc phase surpasses that of the hcp one. ► The higher activity accounts the higher dispersion of the Pt sites on the hcp.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2011.11.131