Abstract
Direct methanol fuel cells (DMFCs) are an attractive portable energy technology due to their low operating temperatures, high-energy conversion efficiency, and lower pollutant production. For over a half-century, the default electrocatalyst for DMFCs has been platinum (Pt). The barriers to widespread deployment of DMFCs, however, are largely linked to the cost of this precious metal and its propensity to become poisoned in its role as the anode catalyst for the oxidation of methanol. Bimetallic platinum–gold (PtAu) catalysts, however, offer superior activity for the oxidation of methanol and can operate with increased electrocatalytic stability and resistance to poisoning. Here, we demonstrate a block copolymer template strategy for the preparation of arrays of clusters of PtAu nanocatalysts with tailored composition, particle density, and electrochemical activity. A detailed characterization by XPS, TEM, EDX, and electrochemistry was used to assign a core–shell nanostructure to the 3 nm PtAu nanocatalyst...
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