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Platinum-based oxygen reduction electrocatalysts
Jianbo Wu,
Hong Yang
Chemical and Biomolecular Engineering
Materials Research Lab
Chemistry
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peer-review
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Keyphrases
Oxygen Reduction Reaction
100%
Oxygen Reduction Catalyst
100%
Platinum-based
100%
Surface Composition
42%
Carbon Dioxide
42%
Nanocrystals
28%
Single Crystal Surfaces
28%
Core-shell
28%
Bimetallic Nanoparticles
28%
Catalyst Activity
28%
Surface Strain
28%
Bimetallic Alloy
28%
Reaction Performance
28%
Surface Structure
14%
Low Temperature
14%
Synthetic Methods
14%
Design Strategy
14%
Step Density
14%
Catalyst Cost
14%
Sample Preparation
14%
Density Functional Calculations
14%
Lattice Mismatch
14%
Data Quality
14%
Pt Catalyst
14%
Small Nanoparticles
14%
Chemisorption
14%
Current Density
14%
Surface Binding
14%
D-band Center
14%
Measure Data
14%
High Stability
14%
Synthetic Strategies
14%
Atomic Arrangement
14%
Bimetallic Catalyst
14%
Metal Surface
14%
Half-cell
14%
High Activity
14%
Metal Alloys
14%
Self-supporting
14%
Reaction Pathway
14%
Proton Exchange Membrane Fuel Cell (PEMFC)
14%
Reduction Method
14%
Pt-based
14%
High Cost
14%
Catalyst Performance
14%
Strong Dependence
14%
Reaction Mechanism
14%
Cost-effectiveness
14%
Crystallite Size
14%
New Catalysts
14%
Power Output
14%
Rotating Disk Electrode
14%
Gas Environment
14%
Hydrogen Fuel
14%
Oxygen Species
14%
Highly Active Catalyst
14%
Catalyst Structure
14%
(111) Facet
14%
Elemental Distribution
14%
Cell Measurement
14%
Sampling Measurement
14%
Data Protocol
14%
Kilowatt
14%
Data Reliability
14%
Secondary Element
14%
Alloy Nanocluster
14%
High-performance Electrocatalysts
14%
Clean Energy Generation
14%
Kinetic Current
14%
Hydrogen-air
14%
Low-dimensional Nanostructure
14%
Surface Facet
14%
Hollow Porous Structure
14%
Material Science
Surface Structure
100%
Nanocrystalline Material
100%
Platinum
100%
Electrocatalysts
100%
Nanoparticle
75%
Carbon Monoxide
75%
Density
50%
Catalyst Activity
50%
Single Crystal Surface
50%
Monolayers
25%
Lattice Mismatch
25%
Alloy
25%
Chemisorption
25%
Metal Surface
25%
Rotating Disc Electrode
25%
Proton-Exchange Membrane Fuel Cells
25%
Hydrogen Fuels
25%
Engineering
Oxygen Reduction Reaction
100%
Electrocatalyst
100%
Oxygen Reduction
100%
Nanoparticle
30%
Crystal Surface
20%
Core-Shell
20%
Low-Temperature
10%
Step Density
10%
Power Generation
10%
Monolayer
10%
Quality Data
10%
Alloy
10%
Measured Value
10%
Measurement Data
10%
Limiting Step
10%
Output Power
10%
Proton-Exchange Membrane Fuel Cells
10%
Lattice Mismatch
10%
Hydrogen Fuel
10%
Porous Structure
10%
Atomic Arrangement
10%
Rotating Disc Electrode
10%
Clean Energy
10%
Crystal Size
10%
Half Cell
10%
Gas Environment
10%
Chemical Engineering
Nanoparticle
100%
Chemisorption
33%