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A Highly Active, Long‐Lived Oxygen Evolution Electrocatalyst Derived from Open‐Framework Iridates

Lan Yang, Lei Shi, Hui Chen, Xiao Liang, Boyuan Tian, Kexin Zhang, Yongcun Zou, Xiaoxin Zou

2022Advanced Materials76 citationsDOI

Abstract

Abstract The acidic oxygen evolution reaction underpins several important electrical‐to‐chemical energy conversions, and this energy‐intensive process relies industrially on iridium‐based electrocatalysts. Here, phase‐selective synthesis of metastable strontium iridates with open‐framework structure and their unexpected transformation into a highly active, ultrastable oxygen evolution nano‐electrocatalyst are presented. This transformation involves two major steps: Sr 2+ /H + ion exchange in acid and in situ structural rearrangement under electrocatalysis conditions. Unlike its dense perovskite‐structured polymorphs, the open‐framework iridates have the ability to undergo rapid proton exchange in acid without framework amorphization. The resulting protonated iridates further reconstruct into ultrasmall, surface‐hydroxylated, (200) crystal plane‐oriented rutile nanocatalyst, instead of the common amorphous IrO x H y phase, during acidic oxygen evolution. Such microstructural characteristics are found to benefit both the oxidation of hydroxyls and the formation of OO bonds in electrocatalytic cycle. As a result, the open‐framework iridate derived nanocatalyst gives a comparable catalytic activity to the most active iridium‐based oxygen evolution electrocatalysts in acid, and retains its catalytic activity for more than 1000 h.

Topics & Concepts

ElectrocatalystOxygen evolutionMaterials scienceCatalysisAmorphous solidOxygenIridiumMetastabilityProtonationChemical engineeringPerovskite (structure)Inorganic chemistryPhysical chemistryCrystallographyElectrochemistryElectrodeChemistryIonOrganic chemistryEngineeringElectrocatalysts for Energy ConversionPerovskite Materials and ApplicationsAdvanced Photocatalysis Techniques
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