Engineering & Materials Science
Nanocrystals
100%
Photoluminescence
42%
Infrared radiation
34%
Ligands
26%
Conduction bands
25%
Surface plasmon resonance
23%
Chalcogenides
19%
Energy gap
19%
Electrons
19%
Doping (additives)
17%
Semiconductor materials
17%
Silver
14%
Electron transitions
12%
Excitons
12%
Passivation
12%
Tellurium
12%
Metals
11%
Thin film transistors
11%
Tuning
11%
Photodetectors
11%
Electron mobility
10%
Lead
10%
Optoelectronic devices
10%
Crystal structure
9%
Dipole moment
9%
Photocurrents
9%
Carrier concentration
9%
Optical properties
8%
Wavelength
8%
Valence bands
8%
Thin films
8%
Positive ions
8%
Microcrystals
8%
Plasmons
8%
Electron energy levels
7%
Organic semiconductor materials
7%
Infrared absorption
7%
Phototransistors
7%
Infrared spectroscopy
6%
Ions
6%
Cesium
6%
Solar cells
6%
Field effect transistors
6%
Electronic states
6%
Quantum confinement
5%
Nanowires
5%
Dielectric properties
5%
Lighting
5%
Lasers
5%
Metamaterials
5%
Chemical Compounds
Quantum Dot
56%
Nanocrystal
49%
Mid-IR Spectroscopy
25%
Photoluminescence
20%
Semiconductor Nanocrystal
19%
Conduction Band
17%
Electronic Transition
15%
Band Gap
14%
Electron Particle
12%
Auger Process
12%
Selenide
10%
Auger Recombination
8%
Electron Mobility
8%
Ligand
8%
Optical Property
7%
Chemical Passivation
7%
Metal
7%
Optoelectronics
7%
Elemental Tellurium
7%
Application
6%
Photocurrent
5%
Semiconductor
5%
Cation Exchange
5%
Field Effect
5%
Nanoplatelet
5%
Nanomaterial
5%
Liquid Film
5%
Plasmon
5%
Dipole Interaction
5%
Valence Band
5%
Nonstoichiometric Compound
5%
Permittivity
5%
Physics & Astronomy
nanocrystals
39%
quantum dots
33%
photoluminescence
17%
ligands
14%
selenides
11%
silver
11%
surface plasmon resonance
10%
chalcogenides
10%
tuning
9%
tellurium
9%
lasing
7%
lead selenides
7%
life (durability)
6%
passivity
6%
metals
6%
tellurides
6%
photometers
5%
electrons
5%
microcrystals
5%
dipole moments
5%
organic semiconductors
5%
