Engineering & Materials Science
Nanocrystals
100%
Photodetectors
36%
Silver
32%
Doping (additives)
32%
Semiconductor materials
27%
Thin films
26%
Tellurium
21%
Selenium
20%
Chalcogenides
19%
Nanowires
17%
Charge transfer
16%
Positive ions
16%
Temperature
15%
Optoelectronic devices
15%
Dark currents
13%
Ligands
13%
Electronic properties
13%
Nanostructures
12%
Nanoparticles
12%
Quantum confinement
12%
Electron Transport
11%
Hybrid materials
11%
Carrier lifetime
11%
Wavelength
10%
Fabrication
9%
Nanocomposites
9%
Light absorption
9%
Fermi level
8%
Defects
8%
Nanostructured materials
8%
Electron mobility
8%
Atoms
7%
X ray absorption
7%
Styrene
7%
Impact ionization
7%
Hole mobility
7%
Phase transitions
7%
Seebeck effect
7%
Copper
7%
Zinc
7%
Magnetic anisotropy
7%
Charge trapping
6%
Stoichiometry
6%
Impurities
6%
Electrons
6%
Energy gap
6%
Tin
6%
Colloids
6%
Chemical Compounds
Nanocrystal
54%
Quantum Dot
36%
Selenide
23%
Semiconductor Nanocrystal
23%
Doping Material
15%
Semiconductor
15%
Nanowire
12%
Nanomaterial
11%
Liquid Film
11%
Charge Transfer
10%
Optoelectronics
9%
Impact Ionization
9%
Ambient Reaction Temperature
9%
Photoconductivity
7%
Energy
7%
Electron Transport
7%
Electronic Property
7%
Tetragonal Space Group
6%
Surface
6%
Nanoparticle
6%
Electron Mobility
6%
Amorphous Material
6%
Optical Transition
6%
Extended X Ray Absorption Fine Structure Spectrum
5%
Fermi Level
5%
Magnetic Anisotropy
5%
Long-Range Order
5%
Solar Cell
5%
Hole Transport
5%
Hole Mobility
5%
Alloy
5%
Cation
5%
Pressure
5%
Physics & Astronomy
nanocrystals
31%
quantum dots
19%
photometers
18%
selenium
14%
tellurium
12%
nanowires
9%
dark current
9%
selenides
9%
performance
8%
avalanches
8%
electronics
8%
engineering
8%
thin films
7%
nanocomposites
7%
thermoelectric materials
7%
cations
7%
carrier lifetime
7%
copper selenides
7%
silver
7%
Seebeck effect
6%
homojunctions
5%
ligands
5%
sulfonates
5%
p-type semiconductors
5%
defects
5%
electron mobility
5%
room temperature
5%
