Abstract

Objective evaluation of the activity of electrocatalysts for water oxidation is of fundamental importance for the development of promising energy conversion technologies including integrated solar water-splitting devices, water electrolyzers, and Li-air batteries. However, current methods employed to evaluate oxygen-evolving catalysts are not standardized, making it difficult to compare the activity and stability of these materials. We report a protocol for evaluating the activity, stability, and Faradaic efficiency of electrodeposited oxygen-evolving electrocatalysts. In particular, we focus on methods for determining electrochemically active surface area and measuring electrocatalytic activity and stability under conditions relevant to an integrated solar water-splitting device. Our primary figure of merit is the overpotential required to achieve a current density of 10 mA cm(-2) per geometric area, approximately the current density expected for a 10% efficient solar-to-fuels conversion device. Utilizing the aforementioned surface area measurements, one can determine electrocatalyst turnover frequencies. The reported protocol was used to examine the oxygen-evolution activity of the following systems in acidic and alkaline solutions: CoO(x), CoPi, CoFeO(x), NiO(x), NiCeO(x), NiCoO(x), NiCuO(x), NiFeO(x), and NiLaO(x). The oxygen-evolving activity of an electrodeposited IrO(x) catalyst was also investigated for comparison. Two general observations are made from comparing the catalytic performance of the OER catalysts investigated: (1) in alkaline solution, every non-noble metal system achieved 10 mA cm(-2) current densities at similar operating overpotentials between 0.35 and 0.43 V, and (2) every system but IrO(x) was unstable under oxidative conditions in acidic solutions.

Keywords

OverpotentialOxygen evolutionElectrocatalystChemistryWater splittingCatalysisFaraday efficiencyElectrolysis of waterOxygenChemical engineeringNon-blocking I/ONanotechnologyInorganic chemistryElectrolysisElectrodeElectrolyteElectrochemistryMaterials sciencePhysical chemistryPhotocatalysis

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Publication Info

Year
2013
Type
article
Volume
135
Issue
45
Pages
16977-16987
Citations
6432
Access
Closed

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Cite This

Charles C. L. McCrory, Suho Jung, Jonas C. Peters et al. (2013). Benchmarking Heterogeneous Electrocatalysts for the Oxygen Evolution Reaction. Journal of the American Chemical Society , 135 (45) , 16977-16987. https://doi.org/10.1021/ja407115p

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DOI
10.1021/ja407115p