New Jersey Institute of Technology

  • United States

Fingerprint Dive into the research topics where New Jersey Institute of Technology is active. These topic labels come from the works of this organization's members. Together they form a unique fingerprint.

Engineering & Materials Science

Petri nets
Scheduling
Communication
Experiments
Costs
Processing
Membranes
Temperature
Throughput
Bandwidth
Sensors
Powders
Students
Base stations
Metals
Carbon nanotubes
Data storage equipment
Composite materials
Wireless networks
Fluids
Water
Industry
Internet
Fibers
Robots
Substrates
Quality of service
Fading channels
Polymers
Antennas
Liquids
Switches
Semantics
Siphons
Computational complexity
Gases
Code division multiple access
Nanocomposites
Silicon
Imaging techniques
Ignition
Chemical analysis
Computer simulation
Aluminum
Flexible manufacturing systems
Network protocols
Thin films
Oxides
Neural networks
Watermarking
Energy utilization
Polynomials
Decomposition
Color
Planning
Supervisory personnel
Topology
Monitoring
Wavelength
Modulation
Classifiers
Feedback
Air
Coatings
Nanoparticles
Resource allocation
Infrared radiation
Controllers
Kinetics
Network coding
Hardware
Testing
Specifications
Eye movements
Sensor networks
Wireless sensor networks
Recovery
Detectors
Brain
Scattering
Defects
Electrodes
Geometry
Semiconductor materials
Servers
Decoding
Ontology
Communication systems
Cryptography
Virtual reality
Education
Scheduling algorithms
Sampling
Oxygen
Fabrication
Learning systems
Oxidation
Telecommunication traffic
Statistics
Pixels

Chemical Compounds

Carbon Nanotubes
Powders
Membranes
Metals
Temperature
Polymers
Water
Gases
Silicon
Oxides
Aluminum
Fibers
Nanoparticles
Composite materials
Substrates
Liquids
Ions
Nanocomposites
Kinetics
Thin films
Graphite
Coatings
Experiments
Infrared radiation
Fluids
Oxidation
Ignition
Raman scattering
Pharmaceutical Preparations
Air
Oxygen
Imaging techniques
Molecules
Catalysts
Boron
Chemical analysis
Electrons
Processing
Optical properties
Fluorescence
Liquid membranes
Carbon
Hydrogen
Silicon Dioxide
Suspensions
Eye movements
Volatile Organic Compounds
Wavelength
Distillation
Crystallization
Electrodes
X rays
Defects
Photons
Aluminum Oxide
Nanotubes
Crystals
Scaffolds
Brain
Particle size
Fluxes
Carbon Monoxide
Vapors
Nitrogen
Adsorption
Magnetic fields
Computer simulation
Fabrication
Doping (additives)
Multiwalled carbon nanotubes (MWCN)
Agglomeration
Steel
Monitoring
Desalination
Spectroscopy
Nanowires
Tissue
Derivatives
Crystalline materials
Phase transitions
Plasmas
Microwaves
Genes
Atoms
Skin
Polypropylenes
Energy gap
Tissue engineering
Raman spectroscopy
Degradation
Electric fields
Lasers
Stem cells
Solar cells
Germanium
Semiconductor materials
Steam
Annealing
Impurities
Geometry

Physics & Astronomy

General

flares
simulation
filaments
membranes
energy
thin films
metals
volcanic eruptions
fluids
microwaves
probes
polarity
fibers
detectors
interactions
cells
synthesis
inversions
kinetics
defects
ribbons
profiles
waveguides
flames
electric fields
lasers
sensors
predictions
thermites
collisions
crystals
hollow
configurations
augmentation
propagation
convection
radiation
adaptive optics
wafers
porosity
electronics
estimates

Aerospace Sciences

solar flares
magnetic fields
solar observatories
sunspots
sun
telescopes
coronal mass ejection
spectroscopy
bursts
photosphere
solar cycles
observatories
solar oscillations
chromosphere
coronas

Life Sciences

bears

Physics

temperature
wavelengths
electrons
oscillations
optical properties
magnetic flux
nanoparticles
ions
photoluminescence
acoustics
cycles
electric potential
photons

Engineering

x rays
ignition
carbon nanotubes
high resolution
magnetic signatures
Raman spectra
solar cells
heating
nucleation
scattering
nanowires
excitation
broadband
annealing

Chemistry and Materials

silicon
aluminum
liquids
nanocomposites
oxides
polymers
composite materials
oxidation
water
oxygen
gases
air
boron
silicon dioxide

Geosciences

helioseismology