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Quantification of electrochemically accessible iridium oxide surface area with mercury underpotential deposition

Jane Edgington, Sejal Vispute, Ruihan Li, Adrien Deberghes, Linsey C. Seitz

2024Science Advances13 citationsDOIOpen Access PDF

Abstract

Research drives development of sustainable electrocatalytic technologies, but efforts are hindered by inconsistent reporting of advances in catalytic performance. Iridium-based oxide catalysts are widely studied for electrocatalytic technologies, particularly for the oxygen evolution reaction (OER) for proton exchange membrane water electrolysis, but insufficient techniques for quantifying electrochemically accessible iridium active sites impede accurate assessment of intrinsic activity improvements. We develop mercury underpotential deposition and stripping as a reversible electrochemical adsorption process to robustly quantify iridium sites and consistently normalize OER performance of benchmark IrO x electrodes to a single intrinsic activity curve, where other commonly used normalization methods cannot. Through rigorous deconvolution of mercury redox and reproportionation reactions, we extract net monolayer deposition and stripping of mercury on iridium sites throughout testing using a rotating ring disk electrode. This technique is a transformative method to standardize OER performance across a wide range of iridium-based materials and quantify electrochemical iridium active sites.

Topics & Concepts

IridiumUnderpotential depositionElectrocatalystMercury (programming language)ElectrochemistryMaterials scienceOxygen evolutionElectroplatingInorganic chemistryChemistryCatalysisChemical engineeringNanotechnologyElectrodeComputer scienceCyclic voltammetryPhysical chemistryLayer (electronics)BiochemistryEngineeringProgramming languageElectrocatalysts for Energy ConversionFuel Cells and Related MaterialsAdvanced Memory and Neural Computing
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