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Embedded Ir─Ru Single‐Atom Alloy with Self‐Limiting Motifs for Sustainable Proton Exchange Membrane Water Electrolysis

Shaoxiong Li, Liming Deng, Sung‐Fu Hung, Sheng Zhao, Luqi Wang, Yixin Hao, Yongde Long, Boyuan Li, Yung‐Hsi Hsu, Yiyu Chen, Ying Zhang, Tsung‐Yi Chen, Feng Hu, Linlin Li, Yuxiang Hu, Yuping Wu, Shiling Peng

2025Advanced Materials8 citationsDOI

Abstract

Abstract Designing acid‐stable anodic electrocatalysts with low noble‐metal loading is essential for the industrial‐scale application of proton exchange membrane water electrolysis (PEMWE). However, existing catalyst systems struggle to fully utilize the intrinsic properties of active sites. Here, a precisely engineered nanocatalyst is unveiled through a hierarchical atomic assembly strategy for synthesis, featuring an ultralow‐content Ir─Ru single‐atom alloy integrated into robust titanium dioxide nanowires (Ir 1 Ru/TiO 2 ). This lattice‐embedded structure induces the support to reduce the dissolution and excessive oxidation of Ru/Ir sites through strong interfacial coupling, significantly enhancing the corrosion resistance of catalysts. Moreover, atomically dispersed Ir induces the formation of uniquely shortened Ru─O ligand bonds, serving as stable self‐limiting motifs, in contrast to the conventional formation of amorphous oxide layers. The Ir 1 Ru/TiO 2 catalyst showcases an initial mass activity of 1971.5 A , enabling stable operation at 10 mA cm −2 for over 3200 h and at the rated current density of 2 A cm −2 for 2000 h in PEMWE.

Topics & Concepts

Materials scienceElectrolysis of waterChemical engineeringDissolutionCorrosionCatalysisElectrolysisAlloyAmorphous solidOxideNiobium oxideAnodeWater splittingProton exchange membrane fuel cellMembraneNanowireNanotechnologyElectrocatalystCurrent densityAmorphous metalLigand (biochemistry)Titanium dioxideTitanium oxideTitaniumFabricationElectrochemistryAnodizingProtonRational designAnodic Aluminum OxideProton transportMass transportElectrocatalysts for Energy ConversionAdvanced battery technologies researchFuel Cells and Related Materials
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