Profile Fingerprint is based on mining the text of the experts' scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

Engineering & Materials Science

Microwaves
Composite materials
Polymers
Temperature
Processing
Hydrogen
Plasmas
Hot Temperature
Curing
Kinetics
Wood
Experiments
Epoxy resins
Amines
Vapors
Dielectric properties
Applicators
Gases
Heating
Permittivity
Propulsion
Ethers
Microwave heating
Microwave frequencies
Rockets
Natural fibers
Atoms
Reaction rates
Energy transfer
Adsorption
Glucose
Cellulose
Process design
Resins
Sugars
Knowledge based systems
Polymerization
Flow rate
Decision support systems
Cavity resonators
Hydrolysis
Packed beds
Asphalt
Binders
Saccharification
Hydrogenolysis

Chemical Compounds

Microwaves
Composite materials
Temperature
Processing
Polymers
Curing
Kinetics
Wood
Epoxy Resins
Amines
Hydrofluoric Acid
Vapors
Heating
Experiments
Dielectric properties
Microwave heating
Microwave frequencies
Adsorption
Permittivity
Resins
Reaction rates
Sugars
Applicators
Glucose
Process design
Polymerization
asphalt
Natural fibers
Packed beds
Binders
Cellulose
Gases
Hydrogenolysis
Decision support systems

Physics & Astronomy

General

microwaves
curing
electromagnetism

Aerospace Sciences

cavities

Engineering

permittivity
cavity resonators

Chemistry and Materials

polymers
composite materials