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SIT総合研究所
芝浦工業大学
概要
フィンガープリント
ネットワーク
プロファイル
(31)
研究成果
(407)
プレス/メディア
(1)
フィンガープリント
SIT総合研究所が活動している研究トピックを掘り下げます。これらのトピックラベルは、この組織のメンバーの研究成果に基づきます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Engineering & Materials Science
Superconducting materials
100%
Oxygen
44%
Flux pinning
43%
Temperature
43%
Magnetization
39%
Doping (additives)
35%
Magnets
31%
Thin films
30%
Thermal conductivity
27%
HTTP
26%
Magnetic fields
26%
Robots
26%
Perovskite
26%
Crystal structure
25%
Skutterudites
25%
Oxides
25%
Microstructure
23%
Infiltration
22%
Nanowires
22%
Nanoparticles
22%
High temperature superconductors
18%
Pulsed laser deposition
18%
Experiments
16%
Plasmas
16%
Spark plasma sintering
15%
Gels
15%
Energy gap
15%
Magnetic properties
15%
Permanent magnets
14%
Electroencephalography
14%
Rare earth elements
13%
Electrons
13%
Photodetectors
13%
Eye tracking
13%
Electron diffraction
13%
Transmission electron microscopy
13%
Boron
13%
Liquids
13%
X ray diffraction
13%
Hydrogen
13%
Video streaming
13%
Powders
12%
Sensors
12%
Zinc oxide
12%
Oxide films
12%
Oxidation
12%
Blood
12%
Carbon
12%
Electrodes
12%
Seebeck coefficient
12%
Lasers
11%
Positive ions
11%
Grain boundaries
11%
Muscle
11%
Density functional theory
11%
Foams
11%
Oxygen vacancies
11%
Quasicrystals
11%
Graphene nanoribbon
11%
Tissue
11%
Carrier concentration
11%
Nanostructures
11%
Eye movements
11%
Mechanical alloying
10%
Superconductivity
10%
Magnetism
10%
Scanning electron microscopy
10%
Air
9%
Crystals
9%
Magnetic flux
9%
Patient rehabilitation
9%
Physical properties
9%
Cosmetics
9%
Polymers
9%
Composite materials
9%
Mechanical properties
9%
Oxygen reduction reaction
9%
Catalysts
9%
Ferroelectric materials
9%
Substrates
9%
Sintering
9%
Iron
8%
Hydrogen storage
8%
Rare earths
8%
Bottles
8%
Transport properties
8%
Addition reactions
8%
Speckle
8%
Ions
8%
Demagnetization
8%
Metals
8%
Superconducting transition temperature
7%
Phonons
7%
Annealing
7%
Scanning
7%
Impurities
7%
Robotics
7%
Chemical analysis
7%
Deflection yokes
7%
Carbon nanotubes
7%
Chemical Compounds
Superconductor
89%
Thermoelectricity
47%
Magnetization
30%
Dioxygen
28%
Microstructure
28%
Magnetic Field
26%
Thermal Conductivity
25%
Application
21%
Liquid Film
18%
Current Density
17%
Oxide
17%
Electron Backscatter Diffraction
16%
Magnetic Flux
16%
Alloy
16%
Pulsed Laser Deposition
15%
Force
15%
Nanowire
15%
Plant Growth
14%
Plasma
13%
Grain Boundary
13%
Flow
13%
Surface
13%
Sintering
13%
Muon
12%
Liquid
12%
Time
12%
Ambient Reaction Temperature
12%
Lanthanoid Atom
12%
Band Gap
12%
Reduction
11%
Pressure
11%
Magnetic Property
11%
Foam
11%
Energy
10%
Nanoparticle
10%
Simulation
9%
Demagnetization
9%
Crystal Structure
9%
Zinc Oxide
9%
Superconductivity
8%
Nanoribbon
8%
Phonon
8%
Meissner Effect
8%
Electron Particle
8%
Seebeck Coefficient
8%
Behavior as Electrode
8%
Composite Material
8%
Superconductive Transition Temperature
8%
Magnetism
8%
Hexagonal Space Group
8%
Polycrystalline Solid
7%
Purity
7%
Boron Atom
7%
Conductivity
7%
Solar Concentrator
7%
Hydrogen
7%
Biological Property
7%
Electron Spin
7%
Electrical Conductivity
7%
Binding Agent
6%
Cooling
6%
Gel
6%
X-Ray Diffraction
6%
Transport Property
6%
Luminiscence Type
6%
Nanomaterial
6%
Quasicrystallinity
6%
Electric Field
6%
Transmission Electron Microscopy
6%
Annealing
6%
Polarization
5%
Carbon Atom
5%
Kikuchi Reaction
5%
Strain
5%
Clarification
5%
Volume
5%
Amount
5%
Porous Polymer
5%
Art
5%
Energy Storage
5%
Gas
5%
Ceramic
5%
Amorphous Material
5%
Acenes
5%
Heat
5%
Cation
5%
Oxidation Reaction
5%
Drop
5%
Plate Like Crystal
5%
Physics & Astronomy
magnets
27%
YBCO superconductors
27%
magnetization
23%
flux pinning
21%
performance
20%
oxygen
20%
permanent magnets
17%
synthesis
16%
infiltration
16%
thin films
14%
microstructure
14%
perovskites
13%
oxides
12%
trapping
12%
temperature
12%
thermal conductivity
12%
crystal structure
12%
iron
11%
magnetic fields
11%
yokes
11%
critical current
11%
foams
11%
emotions
10%
diffraction
10%
trapped magnetic fields
10%
magnetic flux
10%
current density
10%
sensors
10%
magnetic properties
9%
evaluation
9%
electrodes
9%
sparks
9%
room temperature
9%
sintering
8%
grain boundaries
8%
mechanical properties
8%
learning
8%
augmentation
8%
carbon
8%
oxidation
8%
torque
7%
inoculation
7%
composite materials
7%
struts
7%
catalysts
7%
boron
7%
pulses
7%
rings
6%
muons
6%
zinc oxides
6%
nanowires
6%
characterization
6%
pulsed laser deposition
6%
Seebeck effect
6%
conductivity
6%
cooling
6%
cuprates
6%
hydrogen
6%
nanoparticles
6%
high temperature superconductors
6%
physical properties
6%
electrons
6%
energy
6%
scaling
5%
robots
5%
arts
5%
graphene
5%
electrical resistivity
5%
fabrication
5%
scanning electron microscopy
5%
gels
5%
cations
5%
seeds
5%
photometers
5%