Role of Electrolyte pH on Water Oxidation for Iridium Oxides

化学 电解质 电化学 析氧 无机化学 动力学 有机化学 催化作用 物理化学 电极 物理 量子力学
作者
Caiwu Liang,Yu Katayama,Yemin Tao,Asuka Morinaga,Benjamin Moss,Verónica Celorrio,Mary P. Ryan,Ifan E. L. Stephens,James R. Durrant,Reshma R. Rao
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:146 (13): 8928-8938 被引量:106
标识
DOI:10.1021/jacs.3c12011
摘要

High Resolution Image Download MS PowerPoint Slide Understanding the effect of noncovalent interactions of intermediates at the polarized catalyst–electrolyte interface on water oxidation kinetics is key for designing more active and stable electrocatalysts. Here, we combine operando optical spectroscopy, X-ray absorption spectroscopy (XAS), and surface-enhanced infrared absorption spectroscopy (SEIRAS) to probe the effect of noncovalent interactions on the oxygen evolution reaction (OER) activity of IrO x in acidic and alkaline electrolytes. Our results suggest that the active species for the OER (Ir 4.x+ –*O) binds much stronger in alkaline compared with acid at low coverage, while the repulsive interactions between these species are higher in alkaline electrolytes. These differences are attributed to the larger fraction of water within the cation hydration shell at the interface in alkaline electrolytes compared to acidic electrolytes, which can stabilize oxygenated intermediates and facilitate long-range interactions between them. Quantitative analysis of the state energetics shows that although the *O intermediates bind more strongly than optimal in alkaline electrolytes, the larger repulsive interaction between them results in a significant weakening of *O binding with increasing coverage, leading to similar energetics of active states in acid and alkaline at OER-relevant potentials. By directly probing the electrochemical interface with complementary spectroscopic techniques, our work goes beyond conventional computational descriptors of the OER activity to explain the experimentally observed OER kinetics of IrO x in acidic and alkaline electrolytes.
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