Keyphrases
Oxygen Reduction
100%
Oxygen Reduction Reaction
100%
Nanocatalyst
100%
Direct Methanol Fuel Cell
100%
Selenous Acid
50%
Elevated Temperature
25%
Inductively Coupled Plasma Atomic Emission Spectrometry
25%
Fuel Cell
25%
Atomic Ratio
25%
Methanol
25%
High Activity
25%
Current Density
25%
Poisoning
25%
Tafel Slope
25%
High Efficiency
25%
Rotating Disk Electrode
25%
Electrochemical Studies
25%
High Cost
25%
Nanomaterials
25%
Acidic Conditions
25%
Severely Affected
25%
Kinetic Study
25%
Electrocatalytic Activity
25%
Stability Test
25%
Cathode Catalyst
25%
Kinetic Current
25%
Energy Conversion Systems
25%
Non-platinum
25%
Controlled Composition
25%
Se Source
25%
Microwave Irradiation
25%
Low Efficiency
25%
Pt-based
25%
Se Powder
25%
High Kinetics
25%
Methanol Fuel
25%
DSC-TGA
25%
Material Science
Methanol Fuels
100%
Phase Composition
100%
Density
50%
X-Ray Diffraction
50%
Energy-Dispersive X-Ray Spectroscopy
50%
Differential Scanning Calorimetry
50%
Platinum
50%
Cathode
50%
Rotating Disc Electrode
50%
Thermogravimetric Analysis
50%
Nanostructured Material
50%
Engineering
Oxygen Reduction Reaction
100%
Oxygen Reduction
100%
Direct Methanol Fuel Cell
100%
Phase Composition
50%
Nanomaterial
25%
Energy Conversion
25%
Elevated Temperature
25%
Rotating Disc Electrode
25%
Acidic Condition
25%
Kinetic Study
25%
Fuel Methanol
25%
Stability Test
25%
Electrocatalytic Activity
25%
Fuel Cell
25%
Chemistry
Oxygen Reduction Reaction
100%
Direct Methanol Fuel Cell
100%
Phase Composition
33%
Methanol
33%
electrode
33%
Fuel Cell
16%
Differential Scanning Calorimetry
16%
X-Ray Diffraction
16%
Acidic Condition
16%
Electrocatalytic Activity
16%
Current Density
16%
Inductively Coupled Plasma Method
16%
Chemical Element
16%
Kinetic Study
16%
Microwave Irradiation
16%
Energy Conversion
16%
Thermogravimetric Analysis
16%
stability
16%
Nanomaterial
16%
Energy-Dispersive Spectroscopy
16%
Chemical Engineering
Methanol
100%
Kinetic Study
33%
Chemical Element
33%
Differential Scanning Calorimetry
33%