Hybrid ordered mesoporous carbons doped with tungsten trioxide as supports for Pt electrocatalysts for methanol oxidation reaction

[Display omitted] ► Hybrid ordered mesoporous carbon and WO3 supports prepared at different T. ► Pt nanoparticles deposited onto the hybrid supports by wetness impregnation. ► Pt/OMC–WO3-500 showed higher mass-specific activity towards the MOR. ► Tests in DMFC single cell: WO3 decreased the ohmic re...

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Bibliographic Details
Published in:Electrochimica acta 2013-04, Vol.94, p.80-91
Main Authors: Zeng, J., Francia, C., Gerbaldi, C., Baglio, V., Specchia, S., Aricò, A.S., Spinelli, P.
Format: Article
Language:English
Subjects:
Carbon
Direct methanol fuel cell
Electrocatalysts
Methanol oxidation reaction
Methyl alcohol
Nanomaterials
Nanostructure
Ordered mesoporous carbon
Platinum
Pt electrocatalyst
Scanning electron microscopy
Tungsten
Tungsten trioxide
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Summary:[Display omitted] ► Hybrid ordered mesoporous carbon and WO3 supports prepared at different T. ► Pt nanoparticles deposited onto the hybrid supports by wetness impregnation. ► Pt/OMC–WO3-500 showed higher mass-specific activity towards the MOR. ► Tests in DMFC single cell: WO3 decreased the ohmic resistance. The electrocatalytic activity towards the methanol oxidation reaction (MOR) of three series of Pt electrocatalysts supported onto the surface of hybrid nanostructures composed of ordered mesoporous carbons (OMCs) and tungsten trioxide (WO3) is investigated. OMC nanostructures are obtained by hard-template method, through the carbonization of sucrose into the mesopores of the SBA-15 silica and subsequent removal of the template. Hybrid OMC–WO3 supports are synthesized by impregnation of phosphotungstic acid (PWA) onto OMCs, followed by thermal decomposition in N2 atmosphere at three different temperatures (400, 500 and 600°C, respectively). Pt/OMC–WO3 electrocatalysts are prepared by the wetness impregnation technique using a solution of chloroplatinic acid hexahydrated in acetone. Hybrid OMC–WO3 supports and Pt/OMC–WO3 electrocatalysts are characterized from the structural–morphological viewpoint by means of X-ray diffraction, X-ray photoelectron spectroscopy with energy-dispersive spectroscopy, scanning and transmission electron microscopies. Cyclic voltammetry, CO stripping and chronoamperometry measurements are used for the electrochemical characterization of the electrocatalysts towards MOR: the electrocatalytic activity is dependent both on the nature of the supporting materials and on the particle size and structure of WO3. Catalysts containing smaller WO3 crystallites, in fact, demonstrate superior mass-specific activity towards MOR, compared to those possessing larger WO3 particles or amorphous WO3. Finally, the electrochemical behaviour of the best performing electrocatalyst, the Pt/OMC–WO3-500, is compared to that of its counterpart with no WO3 (i.e., Pt/OMC) in a single 5cm2 DMFC cell: the obtained slightly enhanced electrocatalytic activity is attributed to the mutual effect of the hybrid support and the metal nanoparticles. The presence of WO3 not only promotes the mass-specific activity of the supported electrocatalysts, but also decreases the ohmic resistance.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2013.01.139