Benchmarking Heterogeneous Electrocatalysts for the Oxygen Evolution Reaction

过电位 析氧 化学 法拉第效率 电催化剂 电解水 催化作用 非阻塞I/O 分解水 电化学 化学工程 纳米技术 氧气 无机化学 电解 电极 电解质 材料科学 物理化学 光催化 生物化学 有机化学 工程类
作者
Charles C. L. McCrory,Suho Jung,Jonas C. Peters,Thomas F. Jaramillo
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:135 (45): 16977-16987 被引量:6787
标识
DOI:10.1021/ja407115p
摘要

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.
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