Engineering & Materials Science
Nanocrystals
95%
Excitons
84%
Phonons
50%
Spectroscopy
44%
Optical properties
39%
Relaxation
37%
Semiconductor materials
35%
Photophysics
34%
Nanoparticles
31%
Electron correlations
30%
Excited states
30%
Carotenoids
26%
Acoustics
26%
Forster resonance energy transfer
25%
Dimers
24%
Polarization
23%
Hydrogen bonds
22%
Catalysis
21%
Palladium
21%
Oxidation-Reduction
21%
Charge transfer
20%
Electrons
20%
Interfacial energy
19%
Energy transfer
18%
Dyes
18%
Molecules
15%
Elasticity
14%
Proteins
14%
Monomers
14%
Wavelength
14%
Light polarization
13%
Demonstrations
13%
Photons
11%
Surface reconstruction
10%
Fluorescence
9%
Nanorods
7%
Absorption spectra
7%
Quantum yield
7%
Exchange interactions
7%
Physical properties
7%
Angular momentum
6%
Elastic moduli
6%
Particle size analysis
6%
Transmission electron microscopy
5%
Pyrolysis
5%
Physics & Astronomy
quantum dots
99%
excitons
69%
spectroscopy
59%
electronics
58%
nanocrystals
57%
gratings
51%
carotenoids
45%
phonons
35%
fine structure
30%
acoustics
27%
proteins
26%
diamonds
25%
nitrogen
23%
time constant
20%
polarization
20%
energy transfer
19%
synchronism
18%
optical properties
18%
broadband
16%
excitation
16%
wurtzite
15%
surface energy
15%
dimers
14%
zinc
14%
electron scattering
14%
electrons
13%
physical properties
12%
elastic properties
12%
interactions
11%
monomers
11%
baths
10%
nanoparticles
10%
hydrogen
9%
dyes
9%
quenching
8%
polarized light
8%
fluorescence
7%
simulation
7%
photons
6%
modulus of elasticity
6%
Dione
6%
molecules
5%
quantum numbers
5%
crystal field theory
5%
nanorods
5%
Chemical Compounds
Exciton
100%
Quantum Dot
85%
Acoustic Phonon
56%
Semiconductor Nanocrystal
46%
Nanocrystal
39%
Optical Property
31%
Double Quantum Coherence
27%
Transient Spectroscopy
25%
Shape
20%
Excited Electronic State
19%
Electronic Spectroscopy
19%
Spectroscopy
18%
Polarization
18%
Time
18%
Semiconductor
18%
Intersystem Crossing [Singlet->triplet]
18%
Energy Transfer
18%
Photophysics
18%
Spin State
18%
Carotenoid
17%
Inductively Coupled Plasm Mass Spectrometry (ICPMS)
16%
Nanoparticle
16%
Fluorescence Resonance Energy Transfer
15%
Interfacial Energy
15%
Solvent
15%
Excited State
14%
Biexciton
14%
Quantum Beat
14%
Orange
13%
Electron Spin
13%
Vibronic Transition
12%
Palladium
12%
Selection Rule
11%
Strain
11%
Charge Transfer
11%
Surface Reconstruction
11%
Electron Correlation Energy
10%
Catalysis
10%
Photon
10%
Polarized Light
9%
Electronic Excitation
9%
Electron Correlation
9%
Monomer
9%
Wave Function
9%
Electron Particle
8%
Energy
8%
Angular Momentum
7%
Crystal Field Splitting
7%
Quantum Number
7%
Master Equation
7%
