Fingerprint The fingerprint is based on mining the text of the scientific documents related to the associated experts. Based on that an index of weighted terms is created, which defines the key subjects of research unit
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Medicine & Life Sciences
Therapeutics
Neoplasms
Pediatrics
Genes
Proteins
Research
Population
HIV
Mutation
Brain
Kidney
Breast Neoplasms
Heart Failure
Lung
Transplants
Wounds and Injuries
Neurons
Health
Mortality
Prostatic Neoplasms
Survival
Quality of Life
Guidelines
T-Lymphocytes
Liver
Skin
Growth
Magnetic Resonance Imaging
Muscles
Confidence Intervals
Stroke
Pharmaceutical Preparations
Pregnancy
DNA
Serum
Pain
Clinical Trials
Blood Vessels
Safety
Depression
Equipment and Supplies
Mothers
Physicians
Gene Expression
Infection
Cardiovascular Diseases
Phenotype
Randomized Controlled Trials
Incidence
Learning
Drug Therapy
Aptitude
Recurrence
Education
Asthma
HIV-1
Biomarkers
Apoptosis
Blood Pressure
Costs and Cost Analysis
Peptides
Schizophrenia
Glioma
Young Adult
Inflammation
Messenger RNA
African Americans
Odds Ratio
Antibodies
Obesity
Ligands
Placebos
Neoplasm Metastasis
Virus Diseases
Preschool Children
Hispanic Americans
Cell Line
Cohort Studies
Hospital Emergency Service
Exercise
Delivery of Health Care
Spinal Cord Injuries
Biopsy
Enzymes
Spine
Sleep
Practice Guidelines
Morbidity
Newborn Infant
Outcome Assessment (Health Care)
Glioblastoma
Electrons
Melanoma
Technology
Acquired Immunodeficiency Syndrome
Stem Cells
RNA
Psychology
Genome
Hypertension
Chemical Compounds
Metals
Molecules
Genes
Polymers
Electrons
Atoms
Cells
Proteins
Temperature
Ions
Ligands
Substrates
Chemical activation
Nanoparticles
Oxides
X rays
Thin films
Rats
Tumors
Electronic structure
Cations
Tissue
Crystal structure
Graphite
DNA
Water
Charge transfer
Rotaxanes
Carbon Monoxide
Kinetics
Oxygen
Experiments
Semiconductor materials
Catalysts
Imaging techniques
Gold
Spectroscopy
Single crystals
Peptides
Animals
Carbon Nanotubes
Chemical analysis
Anions
Composite materials
Nanostructures
Membranes
Crystals
Gene expression
Oxidation
Silicon
Brain
Phosphorylation
Density functional theory
Self assembly
Enzymes
Geometry
Defects
Assays
Carbon
Copper
Neurons
Hydrogen
Adsorption
Monolayers
Energy gap
T-cells
Stem cells
Blood
Derivatives
Transition metals
Wavelength
Dimers
Muscle
Fluorescence
Transcription
Microstructure
Viruses
Nuclear magnetic resonance
Porphyrins
Electrodes
Chromophores
Lasers
Gases
Doping (additives)
Bone
Infrared radiation
Silver
Fibers
Liquids
Thermodynamics
Conformations
Iron
Scattering
Liver
Mass spectrometry
Aluminum Oxide
X ray diffraction
Excited states
Alkenes
Cracks
Engineering & Materials Science
Metals
Temperature
Electrons
Molecules
Experiments
Atoms
Thin films
Nanoparticles
Polymers
Substrates
X rays
Composite materials
Cracks
Imaging techniques
Ions
Oxides
Concretes
Semiconductor materials
Proteins
Electronic structure
Ligands
Muscle
Geometry
DNA
Fibers
Catalysts
Costs
Charge transfer
Nanostructures
Chemical analysis
Wavelength
Spectroscopy
Microstructure
Kinetics
Positive ions
Communication
Lasers
Sensors
Tissue
Electrodes
Oxygen
Water
Gold
Single crystals
Detectors
Defects
Processing
Crystals
Photons
Self assembly
Students
Data storage equipment
Graphene
Liquids
Fabrication
Energy gap
Density functional theory
Monolayers
Scattering
Doping (additives)
Carbon nanotubes
Adsorption
Creep
Mechanics
Oxidation
Infrared radiation
Crystal structure
Silicon
Peptides
Cements
Polarization
Microscopic examination
Precipitates
Acids
Diffraction
Feedback
Computer simulation
Nanowires
Fluids
Heterojunctions
Stiffness
Carbon
Mechanical properties
Thermodynamics
Derivatives
Crystalline materials
Optical properties
Electronic equipment
Thermal conductivity
Monitoring
Transmission electron microscopy
Chemical activation
Testing
Tomography
Transition metals
Ultrasonics
Hydrogen
Chromophores
Superlattices
X ray diffraction