Keyphrases
Magnetron Sputtering
100%
Durability Improvement
100%
Fuel Cell Cathode
100%
Mo2C
100%
Tantalum
100%
Improved Activity
100%
Proton Exchange Membrane Fuel Cell (PEMFC)
28%
Cost Reduction
14%
Current Density
14%
Surface Treatment
14%
Noble Metals
14%
Working Pressure
14%
Electronic Structure
14%
Oxygen Reduction Reaction
14%
Corrosion Resistance
14%
Corrosion
14%
Cathode Catalyst
14%
Transition Metal Carbides
14%
Kinetic Current
14%
Membrane Electrode Assembly
14%
Void Growth
14%
Accelerated Stress Test
14%
Electrochemical Surface Area
14%
Carbon Support
14%
Operating Parameters
14%
Mass Activity
14%
Improved Kinetics
14%
DC Magnetron Sputtering
14%
Engineering
Magnetron
100%
Fuel Cell
100%
Proton-Exchange Membrane Fuel Cells
66%
Cost Reduction
33%
Corrosion Resistance
33%
Oxygen Reduction Reaction
33%
Membrane Electrode Assembly
33%
Void Growth
33%
Operating Parameter
33%
Cathode Side
33%
Material Science
Magnetron Sputtering
100%
Cathode
100%
Tantalum
100%
Proton-Exchange Membrane Fuel Cells
28%
Density
14%
Oxidation Reaction
14%
Electronic Structure
14%
Stress Analysis
14%
Platinum
14%
Corrosion Resistance
14%
Corrosion
14%
Transition Metal Carbide
14%
Void Growth
14%
Chemical Engineering
Magnetron Sputtering
100%
Precious Metal
33%
Transition Metal
33%