Fingerprint The Fingerprint is defined by mining the titles and abstracts of research outputs and projects/funding awards associated with people in the research unit. The process creates an index of weighted terms from discipline-specific thesauri.

Engineering & Materials Science

Accreditation
Algae
Alkaloids
Alkanolamines
Amines
Anodes
Biomass
Birds
Buoyancy
Carbon
Carbon dioxide
Catalysts
Charcoal
Charge transfer
Chemical analysis
Chemical engineering
Chlorine
Coalescence
Collagen
Composite materials
Conjugated polymers
Conservation
Curricula
Derivatives
Desorption
Electroluminescence
Electrons
Energy transfer
Excited states
Excitons
Experiments
Fibers
Fluorescence
Fluorescence spectroscopy
Fullerenes
Furnaces
Gases
Gels
Genes
Glass
Glycols
Heating
Hyaluronic acid
Hydrocarbons
Hydrogen peroxide
Impurities
Iron
Iron oxides
Kinetics
Lakes
Lead
Lime
Liquids
Magnetic field effects
Magnetic fields
Mass transfer
Materials science
Mechanical engineering
Mechanics
Membranes
Metabolites
Molecules
Ores
Organic carbon
Oxygen
Ozone
Permeation
Photocurrents
Photoluminescence
Polychlorinated biphenyls
Polycyclic aromatic hydrocarbons
Polyethylene glycols
Polymers
Porous materials
Productivity
Pyrolysis
Rate constants
Reaction kinetics
Refuse disposal
Residual stresses
Rivers
Screening
Sediments
Semiconductor quantum dots
Shear flow
Solar energy
Solubility
Sorbents
Sorption
Students
Surface active agents
Swelling
Temperature
Thermal gradients
Tissue
Toluene
Viscosity
Volatile organic compounds
Water
Wood

Chemical Compounds

1-Octanol
Accreditation
Algae
Alkanolamines
Amines
Anodes
Anthranilate Synthase
Aryl Hydrocarbon Receptors
Biomass
Birds
Buoyancy
Carbon
Carbon Dioxide
Carbon Monoxide
Catalysts
Charcoal
Charge transfer
Chemical analysis
Chemical engineering
Chlorinated Hydrocarbons
Chlorine
Coalescence
Collagen
Composite materials
Conjugated polymers
Conservation
Curricula
Derivatives
Dioxins
Electroluminescence
Electrons
Energy transfer
Energy utilization
Environmental engineering
Excited states
Experiments
Fibers
Fibrin
Fluorescence
Fluorescence spectroscopy
Fullerenes
Furnaces
Gases
Gels
Glycols
Heating
Hydrocarbons
Hydrogen Peroxide
Impurities
Kinetics
Lakes
Liquids
Magnetic field effects
Magnetic fields
Membranes
Metabolic engineering
Microbial fuel cells
Molecules
N-methyldiethanolamine
Non-Fibrillar Collagens
Octanols
Optical fiber coupling
Optical properties
Ores
Oxygen
Ozone
Permeation
Photocurrents
Photoluminescence
Polychlorinated Biphenyls
Polycyclic aromatic hydrocarbons
Polymers
Porous materials
Propanolamines
Rate constants
Reaction kinetics
Recovery
Recycling
Screening
Secologanin Tryptamine Alkaloids
Sediments
Semiconductor quantum dots
Shear flow
Solar energy
Solubility
Sorbents
Sorption
Spectroscopy
Stoichiometry
Students
Surface-Active Agents
Temperature
Tissue
Toluene
Viscosity
Volatile Organic Compounds
Water
Wood
Xylulose
diethanolamine

Physics & Astronomy

Aeronautics

photocurrents

Aerospace Sciences

coal
gravitation
magnetic fields
spectroscopy

Chemistry and Materials

acrylates
amines
carbon
charcoal
composite materials
deoxyribonucleic acid
esters
fullerenes
glycols
halides
interfacial tension
iridium
iron oxides
molecules
monoethanolamine (MEA)
nanocomposites
oils
perovskites
polymers
pyrolysis
salicylates
sorption
titanium oxides
toluene
volatile organic compounds
water

Engineering

anodes
carbon nanotubes
charge carriers
energy transfer
excitation
furnaces
gasification
heating
heterojunctions
life (durability)
nanoclusters
photometers
photovoltaic cells
quantum dots
solar cells
tuning

General

Henry law
attraction
augmentation
baths
bubbles
buoyancy
catalysts
charge transfer
chromophores
coalescing
collisions
desorption
dispersing
dissociation
electron transfer
energy
energy consumption
evaluation
expansion
hearths
hysteresis
interactions
liquid phases
minerals
molecular properties
nanocrystals
partitions
pellets
polarity
productivity
quantum efficiency
quenching
screening
solutes
surfactants

Mathematical and Computer Sciences

perturbation theory

Physics

atomic energy levels
biomass
coefficients
electric potential
electroluminescence
electrons
excitons
fluorescence
ground state
nanoparticles
optical properties
orbitals
perturbation
photoluminescence
temperature gradients
thermal conductivity
viscosity