Engineering & Materials Science
Excitons
100%
Plasmonics
88%
Hot electrons
70%
Photocatalysis
66%
Hot Temperature
60%
Molecules
57%
Temperature
52%
Lighting
43%
Superconducting materials
39%
Electrons
38%
Hot carriers
37%
Nanostructures
37%
Metals
37%
Superconducting films
34%
Plasmons
33%
Chemical potential
31%
Superconducting wire
31%
Electron energy levels
31%
Neutron scattering
30%
Photoluminescence
30%
Thermoelectric power
29%
Chirality
29%
Magnetoresistance
26%
Fermi level
24%
Heating
21%
Transport properties
21%
Charge density waves
21%
Magnetic fields
20%
Experiments
19%
DNA
19%
Energy transfer
19%
Thermal gradients
19%
Thermal effects
19%
Semiconductor quantum wires
19%
Chromophores
18%
Electron Transport
18%
Metal insulator transition
17%
Vanadium dioxide
17%
Stereochemistry
17%
Thermoelectric energy conversion
17%
Thermoelectricity
17%
Superconductivity
17%
Phonons
17%
Electron temperature
16%
Transition metal oxides
16%
Photocatalytic activity
15%
Photoelectric cells
15%
Self assembled monolayers
14%
Open systems
14%
Physics
14%
Chemical Compounds
Hot Electron
97%
Electron Configuration
68%
Conductance
62%
Illumination
59%
Exciton
57%
Nonequilibrium
56%
Quantum Transport
53%
Photocatalysis
52%
Energy
46%
Quantum Dot
39%
Electron Particle
37%
Superconducting Wire
34%
Electron Spin
34%
Nuclear Resonance
29%
Master Equation
29%
Thermoelectricity
29%
Metal
29%
Heat
26%
Disorder
26%
Magnetoresistance
26%
Neutron Scattering
23%
Critical Temperature
22%
Magnetic Field
22%
Mean-Field Theory
21%
Thermoelectric Effect
20%
Metal Nanoparticle
20%
Nanomaterial
19%
Superconducting Gap
18%
Transport Property
18%
Tunneling Conductance
17%
Chirality
17%
Molecule
16%
Superconducting Film
15%
Voltage
15%
Energy Transfer
15%
Chemical Potential
15%
Electron Temperature
14%
Charge Density Wave
14%
Tight Binding Model
14%
Photoluminescence
14%
Environment
13%
Metal Insulator Transition
13%
Asymmetry
13%
Superconductivity
13%
Helicene
13%
Chromophore
13%
Electron Transport
12%
Flow
12%
Behavior as Electrode
12%
Resistance
12%
Physics & Astronomy
hot electrons
54%
quantum dots
48%
excitons
45%
baths
44%
metals
39%
illumination
37%
electron distribution
36%
temperature
35%
insulators
33%
molecules
33%
Fourier law
33%
wire
31%
energy
30%
temperature effects
30%
electrons
28%
signatures
28%
disorders
26%
thermoelectricity
26%
chemical reactions
25%
catalysis
25%
fermions
25%
nanoparticles
23%
critical temperature
22%
heat transmission
22%
interactions
21%
crystallinity
20%
heat
19%
phonons
18%
electrodes
18%
crossovers
17%
temperature gradients
16%
physics
16%
impurities
15%
plasmons
15%
vibration
15%
harmonics
15%
magnetic fields
14%
temperature dependence
14%
photoluminescence
14%
predictions
14%
photoelectric cells
13%
heating
12%
formulations
12%
continuous radiation
12%
biopolymer denaturation
12%
molecular electronics
11%
chromophores
11%
curves
11%
thin films
11%
integers
11%
