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Metal–organic-framework-derived porous 3D heterogeneous NiFe<sub>x</sub>/NiFe<sub>2</sub>O<sub>4</sub>@NC nanoflowers as highly stable and efficient electrocatalysts for the oxygen-evolution reaction
82
Citations
59
References
2019
Year
Materials ScienceOxygen Reduction ReactionOxygen-evolution Reaction ElectrocatalystOxygen-evolution ReactionEngineeringOrganic ElectrochemistryMetal–organic-framework-derived Porous 3DLong-term StabilityHeterogeneous CatalysisNanoheterogeneous CatalysisCatalysisEfficient ElectrocatalystsChemistryFunctional MaterialsElectrochemistry
Metal–organic-framework-derived porous 3D heterogeneous NiFe<sub>x</sub>/NiFe<sub>2</sub>O<sub>4</sub>@NC nanoflowers were prepared as an oxygen-evolution reaction electrocatalyst that exhibit a low overpotential of 262 mV and long-term stability of up to 150 h.
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