ELECTROCHEMICAL PREPARATION OF BIMETALLIC Pt-Ru SUPPORTED CATALYSTS USING ORGANIC

Autores/as

  • Juan Sieben Instituto de Ingeniería Electroquímica y Corrosión (INIEC), Universidad Nacional del Sur
  • Marta Duarte Instituto de Ingeniería Electroquímica y Corrosión (INIEC), Universidad Nacional del Sur
  • Carlos Mayer Instituto de Ingeniería Electroquímica y Corrosión (INIEC), Universidad Nacional del Sur

Resumen

The simultaneous codeposition of Pt and Ru on carbon materials was carried out

potentiostatically at -0.5 V using H2PtCl6 and RuCl3 aqueous solutions in presence of different

organic additives: 1) ethylene glycol, 2) ethanol, 3) formic acid, 4) sodium citrate, 5) sodium tartrate

and 6) Na2H2EDTA. The electrodeposition process was influenced thermodynamically and

kinetically by the stabilizers. SEM and AFM analysis of the electrodes showed that the particle size

and the active surface area were notably influenced by the stabilizing agents.

The dissimilar behaviour of the stabilizing agents may be associated with the following effects:(1)

the capability of the stabilizing agent to complex the metal ions, (2) the specific adsorption of

organic molecules that inhibits the particle growth, and (3) the reduction capability of the organic

compounds.

The catalytic activity of the electrodes synthesized with the different additives in the methanol

oxidation reaction obtaining the following decreasing order: citrate > tartrate > ethanol >

Na2H2EDTA > ethylene glycol > formic acid > without stabilizer. This comportment can be related to

the differences in the active surface area, particle size and superficial structure of the metallic

deposit.

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