Publication | Closed Access
Highly active ruthenium sites stabilized by modulating electron-feeding for sustainable acidic oxygen-evolution electrocatalysis
277
Citations
51
References
2022
Year
Materials ScienceOxygen Reduction ReactionChemical EngineeringActive Ruthenium SitesEngineeringActive Ruthenium SiteSingle-atom CatalystCatalysisElectron-feeding Modulation StrategyChemistryHydrogenWater ElectrolysisElectrolysis Of WaterElectrochemistry
An electron-feeding modulation strategy is developed to stabilize the highly active ruthenium site and strengthen the adsorption of the OH* intermediate toward sustainable acidic water electrolysis.
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