If you made any changes in Pure these will be visible here soon.

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

Physics & Astronomy

General

flames
premixed flames
cones
burners
surface reactions
carburizing
hydrocarbon fuels
routes
equivalence
rims
diffusion flames
temperature control
pressure dependence
activation energy
activation
reactors
dissociation
rings
pressure chambers
kinetics

Chemistry and Materials

polycyclic aromatic hydrocarbons
methane
air
fullerenes
acetylene
toluene
silicon tetrachloride
dimers
hydrogen chlorides
pyrenes
oxygen
oxidation
pyrolysis
hydrocarbons
silicon
benzene
phenanthrene
liquid chromatography
hydrogen
hydrogenation

Mathematical and Computer Sciences

numerical analysis

Physics

soot
low pressure
atoms
coefficients
flow velocity
vacuum
flame propagation
atmospheric pressure

Engineering

plugs

Engineering & Materials Science

Polycyclic aromatic hydrocarbons
Soot
Methane
Fullerenes
Numerical analysis
Air
Atoms
Toluene
Cones
Acetylene
Fuel burners
Dimers
Oxygen
Pyrene
Oxidation
Epitaxial growth
Teaching
Carburizing
Hydrogen
Silicon
Students
Aromatic hydrocarbons
Surface reactions
Hydrocarbons
Activation energy
Adsorption
Chlorine
Pyrolysis
Chemical vapor deposition
Benzene
Carbon dioxide
Temperature
Gas chromatography
Vacuum
High performance liquid chromatography
Combustion chambers
Molecules
Molecular orbitals
Flow rate
Chemical reactions
Cyclohexane
Education
Propane
Passivation
Anthracene
Preheating
Decomposition
Flow velocity
Accreditation
Communication

Chemical Compounds

Hydrogen
Acetylene
Hydrocarbons
Atoms
Carbon Monoxide
Silicon
Methane
Dimers
Ethane
Temperature
Polycyclic Aromatic Hydrocarbons
Epitaxial growth
Air
Chemical vapor deposition
Polycyclic aromatic hydrocarbons
Oxidation
Carburizing
Exothermic reactions
Activation energy
Molecular orbitals
Hydrochloric Acid
Chlorine
Surface reactions
Benzene
Adsorption
Pyrolysis
Soot
Temperature control
Hydrogenation
Numerical analysis
Fuel burners
Chemical activation
Vacuum
Kinetics
Gases
Molecules
Propane
Cooling
Passivation
Reaction rates
Fluxes
Decomposition
Reaction kinetics
Atmospheric pressure
Chemical reactions