Keyphrases
AC Calorimetry
100%
Plug Flow Reactor
100%
In Situ High Temperature
100%
Vibrating Sample Magnetometry
100%
Gas Atmosphere
100%
Theory-driven
100%
Cobalt Catalyst
100%
Ammonia Decomposition
100%
Barium
100%
Promotion Effect
100%
In Situ
75%
Ammonia
66%
Slope Method
33%
Local Temperature Difference
33%
Novel Catalyst
33%
Reaction Conditions
33%
Alkali
33%
Ruthenium Catalyst
33%
Base Metals
33%
Alkaline Earth Metals
33%
Catalytic Decomposition
33%
Potential Hydrogen
33%
Successful Development
33%
Catalyst Performance
33%
Nickel Catalyst
33%
Computational Screening
33%
Heavy Duty Applications
33%
Hydrogen Production Efficiency
33%
Catalytic Activity
33%
Gas Composition
25%
Oven
25%
Powder Samples
25%
Vibrating Sample Magnetometer
25%
Oxidizing Atmosphere
25%
Specific Types
25%
Lakeshore
25%
Measurement Sensitivity
25%
Tubular System
25%
Reducing Atmosphere
25%
Active Gas
25%
Oxidation-reduction
25%
Gas Sampling
25%
Silica
25%
Co Particles
25%
Sample Reduction
25%
Safe Handling
25%
Repeatability
25%
MgAl2O4
25%
Ambient Pressure
25%
Ambient Temperature
25%
Engineering
Plug Flow Reactor
100%
Safe-Handling
100%
Plug Flow
100%
Repeatability
100%
Measurement Sensitivity
100%
Ambient Pressure
100%
Gas Composition
100%
Heating Power
100%
Sample Cup
100%
Magnetic Nanoparticle
100%
Temperature Increase
33%
Initial Temperature
33%
Systematic Error
33%
Material Science
Powder
100%
Oxidation Reaction
100%
Barium
100%
Magnetic Nanoparticle
100%
Cobalt
100%
Magnetometer
100%
Calorimetry
100%
Catalyst Activity
50%
Alkaline Earth Metal
50%
Ruthenium
50%
