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Fingerprint Dive into the research topics where Michael John Janik is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Chemical Compounds

Density functional theory
Adsorption
Catalysts
Oxides
Oxidation
Metals
Carbon Monoxide
Electrodes
Borohydrides
Cerium compounds
Methane
Chemical activation
Hydrocarbons
Hydrogen
Discrete Fourier transforms
Transition metals
Hydrogenation
Water
Oxygen
Thiophenes
Reforming reactions
Atoms
Phosphotungstic Acid
Electrolytes
Sulfur
Desulfurization
Catalysis
Electrocatalysts
Anodes
Thermodynamics
Cations
Molecular dynamics
Ions
Direct borohydride fuel cells (DBFC)
Methanol
Kinetics
Solvation
Anions
Oxygen vacancies
Electrooxidation
Protons
Zeolites
Acids
Catalyst activity
Nanoparticles
Carbon
Platinum
Propane
Electrocatalysis
formic acid

Engineering & Materials Science

Density functional theory
Adsorption
Catalysts
Oxidation
Chemical activation
Oxides
Electrodes
Metals
Catalysis
Acids
Cerium compounds
Discrete Fourier transforms
Methane
Hydrogen
Reforming reactions
Hydrogenation
Anodes
Oxygen
Electrocatalysts
Desulfurization
Hydrocarbons
Water
Thiophene
Direct borohydride fuel cells (DBFC)
Transition metals
Electrolytes
Protons
Molecular dynamics
Kinetics
Oxygen vacancies
Electrocatalysis
Electrooxidation
Atoms
Thermodynamics
Sulfur
Alkylation
Catalyst activity
Nanoparticles
Positive ions
Alcohols
Butenes
Solvation
Negative ions
Titanium dioxide
Molecules
Platinum
Fuel cells
Catalyst selectivity
Ions
Adsorbents

Physics & Astronomy

General

density functional theory
catalysts
thermodynamics
activation
transition metals
selectivity
dissociation
desorption
energy

Chemistry and Materials

adsorption
oxidation
mixed oxides
oxygen
acids
borohydrides
hydrogenation
metal oxides
methane
hydrogen
methylation
water
sulfur
methyl alcohol
palladium
oxides
alcohols

Engineering

electrodes

Physics

atoms