Issue 58, 2020, Issue in Progress

Rhodium effects on Pt anode materials in a direct alkaline ethanol fuel cell

Abstract

The development of efficient catalysts for ethanol oxidation in alkaline medium requires a synthetic approach that may prevent the surfactant molecules from being adsorbed at the catalytic sites and decreasing the electrochemical performance of the final direct ethanol fuel cell. Toward this goal, the recently reported surfactant-less Bromide Anion Exchange (BAE) method, appears as a promising route to conveniently aim at preparing PtRh alloys dispersed on carbon substrates. The catalysts prepared herein by the BAE method were characterized physicochemically to obtain structural information on the PtRh/C nanomaterials, their morphology (size and shape), and their chemical and surface composition. Electrochemical behavior and properties of these electrodes were then investigated in a half-cell before the implementation of a direct ethanol fuel cell (DEFC) in a home-made anion exchange membrane Teflon cell. The analysis of the electrolytic solution in the anodic compartment by chromatography revealed that acetate was the major reaction product and the carbonate amount increased with the Rh content in the bimetallic composition. With 2.8–3.6 nm particle sizes, the Pt50Rh50/C catalyst exhibited the highest activity towards the ethanol electrooxidation.

Graphical abstract: Rhodium effects on Pt anode materials in a direct alkaline ethanol fuel cell

Supplementary files

Article information

Article type
Paper
Submitted
29 Jul 2020
Accepted
17 Sep 2020
First published
24 Sep 2020
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2020,10, 35310-35317

Rhodium effects on Pt anode materials in a direct alkaline ethanol fuel cell

T. F. Messa Moreira, S. A. Neto, C. Lemoine, K. B. Kokoh, C. Morais, T. W. Napporn and P. Olivi, RSC Adv., 2020, 10, 35310 DOI: 10.1039/D0RA06570F

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