Engineering & Materials Science
Nanowires
100%
Density functional theory
58%
Metalloids
55%
Quantum confinement
52%
Electronic structure
49%
Silicon
46%
Energy gap
36%
Transistors
34%
Molecules
32%
Band structure
31%
Doping (additives)
30%
Field effect transistors
30%
Electrons
29%
Bismuth
29%
Molecular dynamics
26%
Electron Transport
26%
Electron scattering
24%
Lithography
23%
Metals
23%
Self assembled monolayers
22%
Atoms
21%
Semiconductor materials
21%
Nanoelectronics
19%
Electron transport properties
17%
Indium arsenide
17%
Oxides
16%
Electronegativity
16%
Tin
16%
Strained silicon
16%
Germanium
15%
Wave functions
15%
Stabilization
15%
Paraffins
15%
Amines
15%
Carbon nanotubes
14%
Electronic properties
14%
Passivation
14%
Wire
14%
Gold
14%
Masks
13%
Physics
13%
Thin films
13%
Green's function
12%
Scattering
12%
Chemical activation
11%
Oxygen
11%
Charge transfer
11%
Defects
10%
Substrates
10%
Transport properties
10%
Physics & Astronomy
nanowires
58%
configuration interaction
49%
electronics
33%
silicon
32%
metalloids
32%
electrons
30%
molecules
27%
electronic structure
27%
density functional theory
23%
energy
23%
bismuth
22%
quantum electronics
21%
molecular dynamics
20%
transistors
18%
transport properties
15%
buckminsterfullerene
15%
tunnel junctions
14%
lithography
14%
germanium
14%
approximation
14%
simulation
14%
expansion
14%
boundary conditions
13%
indium arsenides
13%
electron scattering
13%
wire
12%
metals
12%
simulated annealing
12%
diamines
11%
field effect transistors
11%
self consistent fields
11%
carbon nanotubes
11%
masks
11%
energy levels
11%
optimization
11%
atoms
10%
gold
10%
hafnium
10%
geometry
10%
configurations
10%
defects
10%
passivity
10%
excitation
9%
electrodes
9%
alkanes
9%
inks
9%
tin
9%
electric potential
8%
thiols
8%
dissociation
8%
Chemical Compounds
Nanowire
52%
Energy
36%
Simulation
29%
Electronic State
27%
Surface
22%
Conductance
22%
Band Gap
21%
Electron Transport
21%
Field Effect
20%
Density Functional Theory
20%
Density Matrix
17%
Transport Property
17%
Strain
16%
Tight Binding Model
16%
Electron Particle
16%
Electronic Band Structure
15%
Molecular Dynamics
15%
Molecule
15%
Length
14%
Tunneling
14%
Self Assembled Monolayer
14%
Electron Scattering
13%
Variational Method
13%
Liquid Film
12%
Molecular Cluster
12%
Alkane
11%
Quasiparticle
11%
Application
11%
Wave Function
11%
Plane Wave
10%
Electronic Excitation
10%
Metal
10%
Electronegativity
10%
Microelectronics
9%
Electronic Property
9%
Self-Energy
9%
Oxide
9%
Behavior as Electrode
9%
Thermal Conductivity
8%
Ink
8%
Ab Initio Calculation
8%
Nonequilibrium
8%
Modification
8%
Semiconductor
8%
Orbital
8%
Quantum Transport
8%
Doping Material
8%
Force
8%
Thiol
8%
Dimension
8%
