Material Science
Quantum Dot
100%
Nanocrystalline Material
91%
Photoluminescence
37%
Silver
32%
Surface Plasmon
17%
Photovoltaics
16%
Thin-Film Transistor
11%
Thin Films
10%
Density
9%
Optical Property
8%
Crystal Structure
8%
Electron Mobility
8%
Metal Chalcogenides
7%
Field Effect Transistor
6%
Fullerene
6%
Film
6%
Carrier Concentration
6%
X-Ray Photoelectron Spectroscopy
5%
Light-Emitting Diode
5%
Metal Oxide
5%
Chalcogenides
5%
Permittivity
5%
Dielectric Property
5%
Cesium
5%
Metamaterial
5%
Nanocomposites
5%
Alloy Semiconductor
5%
Gallium Ion
5%
Nanowire
5%
Infrared Spectroscopy
5%
Indium
5%
Keyphrases
Intraband Transition
11%
Localized Surface Plasmon Resonance
7%
Chalcogenide Crystals
6%
Doped Nanocrystals
6%
Nanocrystals
6%
Metal Chalcogenides
6%
Emerging Photovoltaics
5%
Metal Excess
5%
Protein Phases
5%
Mid-infrared
5%
Auger Processes
5%
Elemental Solids
5%
Infrared Photoluminescence
5%
Fullerene Formation
5%
Ultra-narrow
5%
Transition Surface
5%
Plasmon Resonance
5%
InSnZnO
5%
Sodium Doping
5%
Silver Indium Sulfide
5%
Self-doping
5%
Ultrafast Carrier Dynamics
5%
Quantum Plasmonics
5%
Cesium Lead Bromide
5%
Ag2Se
5%
Heavy Electron
5%
Colloidal Quantum Dot Photovoltaic
5%
Extended Short-wave Infrared
5%
Chemistry
Quantum Dot
32%
Silver
10%
Selenide
10%
Mid-IR Spectroscopy
9%
Semiconductor Nanocrystal
8%
Photoluminescence
7%
Localized Surface Plasmon Resonance
7%
Conduction Band
6%
Magnetic Property
5%
Auger Process
5%
Cysteine
5%
Transition State
5%
Ambient Reaction Temperature
5%
Infrared Spectroscopy
5%
Fullerene
5%
Plasmon
5%
Band Gap
5%
Diamagnetic
5%