Engineering & Materials Science
Electrons
100%
Semiconductor materials
70%
Impurities
54%
Fermi level
46%
Metal insulator transition
41%
Nanocrystals
33%
Temperature
31%
Carrier concentration
28%
Magnetoresistance
28%
Electric fields
27%
Quantum Hall effect
25%
Magnetic fields
24%
Activation energy
22%
Graphene
22%
Topological insulators
21%
Crystals
21%
Current voltage characteristics
19%
Capacitance
19%
Coulomb interactions
18%
Screening
16%
Germanium
14%
Amorphous semiconductors
14%
Ionic liquids
14%
Scattering
13%
Electric potential
12%
Permittivity
12%
Wave functions
12%
Superconducting materials
11%
Heterojunctions
11%
Electron-electron interactions
11%
Doping (additives)
10%
Excitons
10%
Silicon
9%
Electron energy levels
9%
Nanowires
9%
Semiconductor quantum wires
9%
Experiments
9%
Ground state
8%
Anisotropy
8%
Photoluminescence
8%
Electronic density of states
7%
Thyristors
7%
Computer simulation
7%
Cyclotrons
7%
Wire
7%
Monte Carlo methods
7%
Thermoelectric power
7%
Surface states
7%
Physics & Astronomy
conductivity
67%
electrons
48%
conduction
45%
insulators
44%
impurities
36%
disorders
34%
inversions
29%
deoxyribonucleic acid
29%
screening
26%
capacitance
24%
nanocrystals
24%
electron gas
23%
quantum Hall effect
22%
magnetic fields
18%
electric fields
18%
electric potential
18%
activation energy
16%
liquids
16%
graphene
16%
radii
15%
permittivity
15%
electrostatics
14%
amorphous semiconductors
14%
charging
14%
metals
13%
crystals
13%
wire
13%
electrical resistivity
13%
ions
13%
temperature
11%
proteins
10%
water
10%
phase diagrams
10%
ballistics
10%
interactions
9%
energy
9%
computerized simulation
9%
computer systems simulation
8%
scattering
8%
attraction
8%
temperature dependence
8%
conductors
8%
germanium
8%
condensation
7%
plateaus
7%
electrodes
7%
capacitors
7%
electrochemical capacitors
7%
aluminum gallium arsenides
7%
activation
6%
Chemical Compounds
Hopping Conductivity
56%
Electron Particle
55%
Semiconductor
50%
Conductivity
48%
Density of State
45%
Disorder
31%
Metal Insulator Transition
28%
Magnetic Field
27%
Two-Dimensional Electron Gas
25%
Donor
25%
Fermi Level
24%
Electric Field
24%
Nonconductor
24%
Magnetoresistance
23%
Quantum Hall Effect
23%
Reaction Activation Energy
17%
Length
17%
Nanocrystal
16%
Voltage
15%
Compound Mobility
15%
Landau Level
14%
Graphene
14%
Dielectric Response
13%
Tunneling
13%
Energy
12%
Resistance
11%
Monte Carlo Method
11%
Simulation
10%
Electron Density
9%
Wave Function
9%
Counterion
9%
Molecular Cluster
8%
Coulomb Potential
8%
Dielectric Constant
8%
Ionic Liquid
8%
Capacitor
8%
Subband
8%
Anisotropy
7%
Amorphous Material
7%
Liquid Film
7%
Electron Liquid
6%
Time
6%
Nanowire
6%
Bound State
6%
Superconductor
6%
Exciton
6%
Piezoresistance
6%
Surface
6%
Sphere
5%