Direct methanol oxidation at low overpotentials using Pt nanoparticles electrodeposited at ultrathin conductive RuO2 nanoskins
By Pietron, Jeremy J.; Pomfret, Michael B.; Chervin, Christopher N.; Long, Jeffrey W. & Rolison, Debra R.
Published in J. Mater. Chem.
The Royal Society of Chemistry
2012
Abstract
Small (primarily 2-4 nm) Pt nanoparticles electrodeposited at Ti-supported RuO2 nanoskins, designated as Pt/RuO2(Ti), are highly active for electrocatalytic oxidation of methanol (CH3OH) in acid electrolyte, with peak potentials among the lowest reported anywhere for RuO2-supported Pt. The Pt-modified RuO2 nanoskin is equally effective for CH3OH oxidation whether one or both sides of the Ti-foil substrate is coated or whether the RuO2 nanoskin is electrolessly deposited at the Ti substrate as a single layer or in multiple layers. Current densities for methanol oxidation are [similar]2[times] lower than previously reported, owing to a bimodal distribution of both highly active (2-4 nm) and less active larger (> 5 nm) Pt particles. The methods reported here comprise a means of expressing highly active, nanostructured, bifunctional electrocatalytic coatings on substrates of essentially any geometry and minimizing the quantity of RuO2 necessary.
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