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Recent advances in bimetallic electrocatalysts for oxygen reduction: design principles, structure-function relations and active phase elucidation
Maria Escudero-Escribano
, Kim Degn Jensen, Anders Westergaard Jensen
Department of Chemistry
34
Citations (Scopus)
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Dive into the research topics of 'Recent advances in bimetallic electrocatalysts for oxygen reduction: design principles, structure-function relations and active phase elucidation'. Together they form a unique fingerprint.
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Engineering
Oxygen Reduction Reaction
100%
Structure Function
100%
Electrocatalyst
100%
Oxygen Reduction
100%
Nanomaterial
100%
Active Surface
50%
Renewable Energy
50%
Degradation Mechanism
50%
Nanoparticle
50%
Characterization Method
50%
Energy Conversion
50%
Surface Model
50%
Keyphrases
Reduction Design
100%
Bimetallic Electrocatalyst
100%
Catalyst Degradation Mechanism
50%
Electrocatalytic Oxygen Reduction Reaction
50%
Morphology Control
50%
Extended Surfaces
50%
Pt-based Nanomaterials
50%
Sustainable Energy Conversion
50%
In Situ Characterization Methods
50%
Fine Control
50%
Chemistry
Electrocatalyst
100%
Oxygen Reduction Reaction
100%
Nanomaterial
66%
Nanoparticle
33%
Surface Area
33%
Energy Conversion
33%
stability
33%
Material Science
Electrocatalyst
100%
Design Principle
100%
Nanoparticle
50%
Nanostructured Material
50%
Surface (Surface Science)
50%
Chemical Engineering
Nanoparticle
100%