Abstract
The effect of cobalt, platinum, and cobalt‐platinum, alloys on high surface area carbons for oxygen reduction in alkaline electrolyte was investigated. The Pt‐Co catalyst with ca. 1:3 atomic ratio was prepared by addition of solution to a mixture of methanol and a 5% surfactant in deionized water containing cobalt acetate and carbon suspension. This was followed by drying and heat‐treatment at 700 and 900°C in a flow of hydrogen and nitrogen gas mixtures. Polarization curves and kinetic parameters for Pt, Co, and Pt‐Co were conducted and compared in 6 M KOH and at 80°C. Higher activities were observed for the Pt‐Co alloy, that had been heat treated at 900°C. In addition to increased activity of this catalyst, the unalloyed base metal (Co) contributes to total performance improvement of the oxygen reduction process. Furthermore, surface, structural, and chemical characterizations of the catalysts were carried out using transmission electron microscopy, x‐ray diffraction, Brunauer, Emmett, and Teller method, and atomic absorption spectroscopy. Dissolution of cobalt from the electrodes, both from the single cobalt phase and Pt‐Co alloy catalysts, has been established. The x‐ray results demonstrated a shift to lower lattice parameters (3.618 Å) by the Pt‐Co alloys, prepared at 900°C, than the pure platinum catalyst (3.919 Å).
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call