Publication | Closed Access
A Highly Efficient and Self‐Stabilizing Metallic‐Glass Catalyst for Electrochemical Hydrogen Generation
251
Citations
35
References
2016
Year
Hydrogen Energy TechnologyMulticomponent Metallic GlassElectrochemical Hydrogen GenerationEngineeringGlass MaterialChemistryHydrogen GenerationGlass-ceramicChemical EngineeringNew MechanismHighly EfficientMaterials ScienceMaterials EngineeringCatalyst RecyclingCatalysisMg CatalystHydrogenSelf‐stabilizing Metallic‐glass CatalystElectrochemistrySurface ScienceHeterogeneous CatalysisCatalyst Preparation
A multicomponent metallic glass (MG) with highly efficient and anomalous durability for catalyzing water splitting is reported. The outstanding performance of the MG catalyst contributed by self-optimized active sites originates from the intrinsic chemical heterogeneity and selective dealloying on the disordered surface; thus, a new mechanism for improving the durability of catalysts is uncovered.
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