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Spin-related symmetry breaking induced by half-disordered hybridization in BixEr2-xRu2O7 pyrochlores for acidic oxygen evolution

Gang Zhou, Peifang Wang, Bin Hu, Xinyue Shen, Chongchong Liu, Weixiang Tao, Peilin Huang, Lizhe Liu

2022Nature Communications163 citationsDOIOpen Access PDF

Abstract

Abstract While acidic oxygen evolution reaction plays a critical role in electrochemical energy conversion devices, the sluggish reaction kinetics and poor stability in acidic electrolyte challenges materials development. Unlike traditional nano-structuring approaches, this work focuses on the structural symmetry breaking to rearrange spin electron occupation and optimize spin-dependent orbital interaction to alter charge transfer between catalysts and reactants. Herein, we propose an atomic half-disordering strategy in multistage-hybridized Bi x Er 2-x Ru 2 O 7 pyrochlores to reconfigure orbital degeneracy and spin-related electron occupation. This strategy involves controlling the bonding interaction of Bi-6 s lone pair electrons, in which partial atom rearrangement makes the active sites transform into asymmetric high-spin states from symmetric low-spin states. As a result, the half-disordered Bi x Er 2-x Ru 2 O 7 pyrochlores demonstrate an overpotential of ~0.18 V at 10 mA cm −2 accompanied with excellent stability of 100 h in acidic electrolyte. Our findings not only provide a strategy for designing atom-disorder-related catalysts, but also provides a deeper understanding of the spin-related acidic oxygen evolution reaction kinetics.

Topics & Concepts

Chemical physicsOxygen evolutionSpin (aerodynamics)Lone pairElectrolyteAtom (system on chip)Symmetry breakingOverpotentialCatalysisElectronChemistryMaterials scienceCondensed matter physicsPhysicsElectrochemistryPhysical chemistryThermodynamicsElectrodeMoleculeBiochemistryComputer scienceQuantum mechanicsOrganic chemistryEmbedded systemAdvanced Condensed Matter PhysicsMagnetic and transport properties of perovskites and related materialsElectronic and Structural Properties of Oxides