Platinum–rhodium–tin/carbon electrocatalysts for ethanol oxidation in acid media: effect of the precursor addition order and the amount of tin

Platinum–rhodium–tin/carbon electrocatalysts for ethanol oxidation in acid media: effect of the precursor addition order and the amount of tin

Carbon-supported Pt x –Rh y –Sn z catalysts ( x : y : z  = 3:1:4, 6:2:4, 9:3:4) are prepared by Pt, Rh, and Sn precursors reduction in different addition order. The materials are characterized by X-ray diffraction, transmission electron microscopy, and X-ray photoelectron spectroscopy techniques and...

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Bibliographic Details
Published in:Journal of applied electrochemistry Vol. 45; no. 10; pp. 1057 - 1068
Main Authors: López-Suárez, F. E., Perez-Cadenas, M., Bueno-López, A., Carvalho-Filho, C. T., Eguiluz, K. I. B., Salazar-Banda, G. R.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-10-2015
Subjects:
Chemistry
Chemistry and Materials Science
Electrochemistry
Fuel cells
Industrial Chemistry/Chemical Engineering
Physical Chemistry
Research Article
Bifunctional effect
Nanoparticles
Electrocatalysis
Electrocatalysts composition
Fuel cell
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Summary:Carbon-supported Pt x –Rh y –Sn z catalysts ( x : y : z  = 3:1:4, 6:2:4, 9:3:4) are prepared by Pt, Rh, and Sn precursors reduction in different addition order. The materials are characterized by X-ray diffraction, transmission electron microscopy, and X-ray photoelectron spectroscopy techniques and are evaluated for the electrooxidation of ethanol in acidic media by cyclic voltammetry, chronoamperometry, and anode potentiostatic polarization. The influence of both the order in which the precursors are added and the composition of metals in the catalysts on the electrocatalytic activity and physico-chemical characteristics of Pt x –Rh y –Sn z /C catalysts is evaluated. Oxidized Rh species prevail on the surface of catalysts synthesized by simultaneous co-precipitation, thus demonstrating the influence of synthesis method on the oxidation state of catalysts. Furthermore, high amounts of Sn in composites synthesized by co-precipitation result in very active catalysts at low potentials (bifunctional effect), while medium Sn load is needed for sequentially deposited catalysts when the electronic effect is most important (high potentials), since more exposed Pt and Rh sites are needed on the catalyst surface to alcohol oxidation. The Pt 3 –Rh 1 –Sn 4 /C catalyst prepared by co-precipitation is the most active at potentials lower than 0.55 V (related to bifunctional effect), while the Pt 6 –Rh 2 –Sn 4 /C catalyst, prepared by sequential precipitation (first Rh and, after drying, Pt + Sn), is the most active above 0.55 V.
ISSN:0021-891X
1572-8838
DOI:10.1007/s10800-015-0879-z