Engineering & Materials Science
Chemical vapor deposition
100%
Ligands
60%
Nanocrystals
44%
Atomic layer deposition
42%
Nitrates
40%
Thin films
38%
Temperature
38%
Permittivity
33%
Low pressure chemical vapor deposition
32%
Hafnium
32%
Ruthenium
32%
Metals
31%
Rutherford backscattering spectroscopy
29%
Substrates
28%
Zirconium
26%
Microscopic examination
24%
Gallium
24%
X rays
23%
Oxides
23%
Titanium dioxide
21%
Zinc oxide
21%
Friction
21%
Titanium
20%
Chemical analysis
20%
Silicon
20%
Carbonylation
18%
Aluminum
18%
Oxide films
18%
Spectrometry
18%
Dyes
18%
Polymers
17%
Crystalline materials
17%
Oxygen
16%
Transmission electron microscopy
16%
X ray diffraction
16%
Nitrogen
16%
Zinc
16%
Excited states
15%
Ozone
15%
Electrons
15%
Nuclear magnetic resonance
15%
Dimers
14%
Gallium compounds
14%
Polystyrenes
14%
Crystals
14%
Single crystals
14%
Ions
13%
Nitric oxide
13%
Chemical Compounds
Liquid Film
80%
Chemical Vapour Deposition
63%
Molecular Cluster
49%
Ligand
43%
Nanocrystal
34%
Force
33%
Low Pressure Chemical Vapour Deposition
30%
Nitrate
28%
Molecular Structure
26%
Atomic Layer Epitaxy
26%
Space Group
24%
Crystal Structure
24%
Metal
23%
Hafnium Atom
21%
Gelatin
21%
Carbonylation
19%
Zinc Oxide
19%
Rutherford Backscattering Spectroscopy
18%
Surface
18%
X-Ray
18%
Reaction Yield
18%
Dielectric Constant
18%
Dye
16%
Electron Transfer
15%
Gallane
14%
1,2-bis(diphenylphosphino)ethane
14%
Metal Carbonyl
14%
Excited State
14%
Ambient Reaction Temperature
14%
P21
14%
Metal Oxide
13%
Terthiophene
13%
Pressure
13%
Quinuclidine
13%
Amorphous Material
13%
Oxide
13%
Capacitor
13%
Hydride
12%
Single Crystal X-Ray Diffraction
12%
Titanium Dioxide
12%
Compound Isomer
11%
Nitric Oxide
11%
Nitride
11%
Energy
11%
Dioxygen
11%
Reaction Activation Energy
11%
Compound Mobility
10%
Microstructure
10%
Cleavage
10%
Physics & Astronomy
ligands
79%
synthesis
49%
vapor deposition
39%
molecular structure
39%
ruthenium
36%
crystal structure
33%
reactivity
27%
nanocrystals
26%
characterization
26%
products
24%
x rays
23%
gallium
23%
gelatins
22%
nuclear magnetic resonance
20%
nitrosyls
18%
atomic layer epitaxy
17%
dyes
17%
isomers
16%
metals
16%
zinc oxides
16%
single crystals
15%
cleavage
15%
electron transfer
14%
scanning
13%
adducts
13%
rings
13%
microscopy
12%
hydrides
12%
gallium compounds
12%
nitrogen
12%
spectroscopy
11%
friction
11%
temperature
11%
oxygen
11%
hafnium
11%
alkenes
11%
ethane
11%
permittivity
10%
room temperature
10%
ozone
10%
dioxides
10%
zinc
10%
preparation
10%
oxidation
10%
low pressure
10%
tin
9%
thin films
9%
hydrogen
9%
anions
9%
metal clusters
9%