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W2946778840 endingPage "2653" @default.
W2946778840 startingPage "2645" @default.
W2946778840 abstract "Due to the limited availability of noble metal catalysts, such as platinum, palladium, or gold, their substitution by more abundant elements is highly advisable. Considerably challenging is the controlled and reproducible synthesis of stable non-noble metallic nanostructures with accessible active sites. Here, we report a method of preparation of bare (ligand-free) Cu nanostructures from polycrystalline metal in a controlled manner. This procedure relies on heterogeneous localized electrorefining of polycrystalline Cu on indium tin oxide (ITO) and glassy carbon as model supports using scanning electrochemical microscopy (SECM). The morphology of nanostructures and thus their catalytic properties are tunable by adjusting the electrorefining parameters, i.e., the electrodeposition voltage, the translation rate of the metal source and the composition of the supporting electrolyte. The activity of the obtained materials towards the carbon dioxide reduction reaction (CO2RR), oxygen reduction reaction (ORR) in alkaline media and hydrogen evolution reaction (HER), is studied by feedback mode SECM. Spiky Cu nanostructures obtained at a high concentration of chloride ions exhibit enhanced electrocatalytic activity. Nanostructures deposited under high cathodic overpotentials possess a high surface-to-volume ratio with a large number of catalytic sites active towards the reversible CO2RR and ORR. The CO2RR yields easily electrooxidizable compounds - formic acid and carbon monoxide. The HER seems to occur efficiently at the crystallographic facets of Cu nanostructures electrodeposited under mild polarization." @default.
W2946778840 created "2019-05-29" @default.
W2946778840 creator A5015556955 @default.
W2946778840 creator A5016443120 @default.
W2946778840 creator A5017968593 @default.
W2946778840 creator A5033241894 @default.
W2946778840 date "2019-01-01" @default.
W2946778840 modified "2023-10-17" @default.
W2946778840 title "Patterning Cu nanostructures tailored for CO<sub>2</sub> reduction to electrooxidizable fuels and oxygen reduction in alkaline media" @default.
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