Without the backing of systematic comparative studies, it is generally accepted by the fuel cell community that Pd nanoparticles are superior to their Pd oxide counterparts towards the electrocatalytic oxidization of small organic molecules. We report an ecofriendly and straightforward approach to synthesizing PdO nanoparticles via an unprecedented microwave assisted thermo-hydrolyzation process. It is found that the catalyst remains in its oxidized state when heating in air and is converted into metallic state under the hydrogen treatment. Surprisingly, the mono-disperse PdO nanoparticles supported on carbon black demonstrates an unexpectedly high activity for FAO, with a mass activity of 2165 A g(-1), surpassing that of commercial Pd nanoparticles (844 A g (-1)). Heat-treatment both in air and hydrogen deteriorates the catalytic activity to less than 50% that of the as-prepared. The better stability of the as-prepared PdO/C relative to commercial Pd is confirmed by repeated cyclic voltammetric as well as chronoamperometric evaluations.

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