Publication | Closed Access
p–d hybridization in CoFe LDH nanoflowers for efficient oxygen evolution electrocatalysis
37
Citations
57
References
2022
Year
Materials ScienceInorganic ChemistryP–d HybridizationOrganic LigandsEngineeringOxygen Reduction ReactionCovalent Bonded FrameworkNanoheterogeneous CatalysisCatalysisP–d Orbital HybridizationChemistryElectrochemical ProcessSupramolecular ChemistryMolecule-based MaterialCofe LdhBiomolecular EngineeringElectrochemistryCofe Ldh Nanoflowers
Organic ligands can induce p–d orbital hybridization at the interface of CoFe LDH, resulting in a downshift of the d-band center of CoFe LDH and the optimization of the binding strength of intermediates during the OER.
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