Engineering & Materials Science
Quantum confinement
100%
Indium arsenide
87%
Bismuth
86%
Metalloids
82%
Density functional theory
71%
Passivation
65%
Electronic structure
64%
Acoustic impedance
62%
Band structure
57%
Nanowires
53%
Oxides
51%
Electric potential
47%
More electric aircraft
43%
Perovskite solar cells
43%
Power electronics
42%
Energy gap
42%
Green's function
42%
Charge transfer
41%
Carbon fibers
40%
Carbon nanotube field effect transistors
40%
Thin films
39%
Metals
38%
Photons
38%
Stabilization
36%
Thermal conductivity
35%
Transport properties
34%
Synchronous motors
32%
Electric power systems
31%
Field effect transistors
30%
Functional materials
30%
Physics
30%
3D printers
29%
Carbon nanotubes
28%
Permanent magnets
28%
Optoelectronic devices
28%
Nanostructures
27%
Electronic properties
27%
Microgrids
27%
Electrostatics
26%
Die casting
26%
Fiber reinforced materials
22%
Ions
22%
Power converters
22%
Hot Temperature
21%
Airports
21%
Reinforcement learning
21%
Recycling
21%
Truck terminals
21%
Carrier transport
20%
Printing
20%
Crystal structure
20%
Surface states
20%
Fusion reactions
20%
Phase locked loops
19%
Diodes
19%
Air
19%
System stability
19%
Torque
19%
Semiconductor junctions
19%
Surface chemistry
18%
Redundancy
18%
Metal nanoparticles
18%
Graphene nanoribbon
17%
Rotors
17%
Conversion efficiency
16%
Modulation
16%
Charge carriers
16%
Temperature
16%
Ceramic tools
16%
Endothelial cells
16%
Molecular beam epitaxy
15%
Digital twin
15%
Silicon oxides
15%
Fermi level
15%
Transistors
15%
Electronic equipment
15%
Composite materials
14%
Perovskite
14%
Polymer melts
14%
Recovery
14%
Stoichiometry
14%
Electron affinity
14%
Doping (additives)
14%
Combinatorial optimization
13%
Distributed power generation
13%
Discriminators
13%
Sensorless control
13%
Speech enhancement
13%
Structural optimization
13%
Glycerol
13%
Resins
13%
Renewable energy resources
13%
Machine design
13%
Electric vehicles
13%
Computational fluid dynamics
12%
Lattice constants
12%
Museums
12%
Grinding wheels
12%
Reluctance motors
12%
Multiphase flow
12%
Chemical Compounds
Carbon Fiber
39%
Nanowire
37%
Electronic Band Structure
36%
Density Functional Theory
35%
Quasiparticle
34%
Thermal Conductivity
33%
Oxide
33%
Chemical Passivation
32%
Field Effect
32%
Strain
31%
Band Gap
28%
Liquid Film
27%
Electronic State
26%
Transport Property
25%
Brillouin Zone
25%
Charge Transfer
23%
Additive
23%
Optoelectronics
22%
Energy
22%
Tight Binding Model
21%
Photon
20%
Effective Mass
20%
Nonequilibrium
20%
Recycling
19%
Metal
18%
Thiol
18%
Tunneling
18%
Application
18%
Mandrel
17%
Surface State
17%
Simulation
17%
Rhombohedral Crystal
16%
Nanomaterial
16%
Semiconductor
16%
Carbon Nanotube
15%
Molecular Beam Epitaxy
15%
Alloy
15%
Electronic Property
14%
Surface
14%
Leakage Current
14%
Phase Change Material
13%
Contact Resistance
13%
Density of State
13%
Silicon Oxide
13%
Composite Material
13%
Surface Chemistry
13%
Thermal Resistance
13%
Modification
12%
Ink
10%
Metal Nanoparticle
10%
Length
10%
Heat
10%
Extrusion
10%
Charge Carrier
10%
Molecule
10%
Schottky Barrier
9%
Coolant
9%
Ion
9%
Alkanethiol
8%
Reaction Stoichiometry
8%
Electron Mobility
8%
Band Offset
8%
Ceramic
8%
Tandem Solar Cell
8%
Radiative Recombination
8%
Dimension
8%
Error
8%
Crystal Structure
8%
Lattice Constant
7%
Chemical Species
7%
Graphite
7%
Crystallization
7%
Dipole
7%
Flow
6%
Polycrystalline Solid
6%
Environment
6%
Photoelectricity
6%
Valence Band
5%
Dissipation
5%
Electron Particle
5%
Conduction Band
5%
Physics & Astronomy
indium arsenides
65%
passivity
45%
metalloids
43%
bismuth
42%
density functional theory
35%
nanowires
34%
electronics
28%
diamines
28%
Schottky diodes
22%
oxides
22%
tunnel junctions
22%
benzene
21%
metals
21%
electronic structure
18%
manufacturing
17%
energy levels
17%
transport properties
17%
gold
16%
field effect transistors
14%
structural design
14%
topology
14%
electrodes
13%
pinholes
11%
sound transmission
11%
thin films
11%
molecules
11%
silicon oxides
11%
rotors
10%
converters
10%
stoichiometry
10%
polymerization
10%
Brillouin zones
9%
charge carriers
9%
approximation
9%
carbon nanotubes
9%
stabilization
9%
formalism
9%
Green's functions
8%
design optimization
8%
inversions
8%
sizing
8%
methodology
8%
critical velocity
8%
semiconductor junctions
8%
high speed
8%
resonators
8%
electrons
7%
transistors
7%
low frequencies
7%
chemistry
7%
energy bands
7%
composite materials
7%
nanoparticles
7%
crystal structure
7%
Boltzmann transport equation
6%
covalent bonds
6%
high resolution
6%
radiant flux density
6%
exploitation
6%
silicon
6%
photons
5%
starters
5%
rotor dynamics
5%
electrostatics
5%
fly by wire control
5%
performance
5%
boundary conditions
5%
thick films
5%
tunnels
5%