Rutgers, The State University

  • United States

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

Medicine & Life Sciences

Proteins
Genes
Neoplasms
Therapeutics
DNA
Neurons
Growth
Population
Pharmaceutical Preparations
Mutation
HIV
Research
Enzymes
Breast Neoplasms
Messenger RNA
Brain
Wounds and Injuries
Gene Expression
Escherichia coli
Health
Genome
RNA
Liver
Peptides
Learning
Phosphorylation
Apoptosis
Food
Temperature
Skin
Membranes
Phenotype
Infection
Lung
Hot Temperature
Ligands
Water
HIV-1
Yeasts
African Americans
Alcohols
Bacteria
Aptitude
DNA-Directed RNA Polymerases
Amino Acids
T-Lymphocytes
Mycobacterium tuberculosis
Confidence Intervals
Phosphotransferases
Transcription Factors
Mortality
Inflammation
Lipids
Macrophages
Cell Line
Students
Depression
Prostatic Neoplasms
Mothers
Carcinogenesis
Databases
Saccharomyces cerevisiae
Cytokines
Schizophrenia
Calcium
Cell Death
Tea
Education
Survival
Stem Cells
Serum
Antibodies
Antioxidants
Drosophila
Breast
Binding Sites
Psychology
Safety
Odds Ratio
Obesity
Blood Vessels
Hispanic Americans
Virus Diseases
Autophagy
Kidney
Acquired Immunodeficiency Syndrome
Incidence
Collagen
Glucose
Technology
Diet
Parkinson Disease
Light
Homeostasis
Cues
Metals
Weights and Measures
Caenorhabditis elegans
MicroRNAs
Cell Proliferation

Chemical Compounds

Genes
Proteins
Cells
Metals
Temperature
Rats
Water
DNA
Chemical activation
Molecules
Polymers
Ions
Tissue
Enzymes
Liver
Yeast
Substrates
Nuclear magnetic resonance
Electrons
Phosphorylation
Ligands
Escherichia coli
Membranes
Assays
Peptides
Tumors
Gene expression
Pharmaceutical Preparations
Oxygen
Chemical analysis
RNA
Kinetics
Metabolism
Carbon
Transcription
Conformations
Experiments
Stem cells
Oxides
Neurons
Molecular dynamics
Messenger RNA
Blood
Atoms
Powders
Derivatives
Crystal structure
Brain
Nanoparticles
X rays
Animals
Cations
Crystals
Amino Acids
Oxidation
Composite materials
Acids
Hydrogen bonds
Alcohols
Silicon Dioxide
Single crystals
Muscle
Toxicity
Adsorption
Substitution reactions
Viruses
Lipids
Metabolites
Processing
Iron
Collagen
Sediments
Macrophages
Imaging techniques
Salts
Fluorescence
Ferroelectric materials
Polarization
Bone
Degradation
Antioxidants
Computer simulation
Gels
Gases
Mercury
Bacteria
Apoptosis
Health
Hydrogen
Skin
Amides
T-cells
Phase transitions
Glass
Phosphotransferases
Nucleotides
Isotopes
Thermodynamics
Electronic structure
Nutrition

Engineering & Materials Science

Temperature
Experiments
Proteins
Metals
Communication
Costs
Polymers
Composite materials
Electrons
Sensors
Water
Ions
Processing
Polynomials
Molecules
DNA
Tissue
Genes
Substrates
Computer simulation
Chemical analysis
Imaging techniques
Monitoring
Nanoparticles
Fibers
Oxygen
Molecular dynamics
Geometry
Sampling
Crystals
Acids
Data storage equipment
Ferroelectric materials
Testing
Feedback
Single crystals
Scattering
Throughput
Wireless networks
Cells
X rays
Scheduling
Thin films
Adsorption
Oxides
Powders
Atoms
Collagen
Decomposition
Glass
Kinetics
Health
Phase transitions
Ligands
Electrodes
Carbon
Degradation
Detectors
Peptides
Doping (additives)
Network protocols
Industry
Trajectories
Polarization
Fluids
Silica
Gels
Air
Internet
Heat transfer
Servers
Blood
Liquids
Nuclear magnetic resonance
Students
Electronic structure
Neural networks
Bandwidth
Planning
Approximation algorithms
Positive ions
Impurities
Electric potential
Liver
Defects
Access control
Spectroscopy
Lead
Catalysts
Membranes
Mechanical properties
Perovskite
Mean field theory
Enzymes
Crystal structure
Thermodynamics
Recovery
Networks (circuits)
Fluxes
Infrared radiation