Engineering & Materials Science
Doping (additives)
83%
Thin films
70%
Oxidation
66%
Photoluminescence
60%
Water vapor
25%
Wavelength
19%
Atomic force microscopy
19%
Annealing
14%
X ray diffraction
14%
Air
12%
Sublimation
10%
Electron beams
8%
Atmospheric pressure
8%
Film thickness
8%
Phase transitions
7%
Evaporation
7%
Glass
5%
Substrates
5%
Medicine & Life Sciences
Steam
100%
Atomic Force Microscopy
60%
Air
60%
X-Ray Diffraction
60%
Atmospheric Pressure
34%
Phase Transition
31%
Atmosphere
29%
Glass
24%
Electrons
20%
Chemistry
Doping Material
65%
Liquid Film
36%
Oxidation Reaction
33%
Water Vapor
19%
Photoluminescence
15%
Wavelength
14%
Photoluminescence Spectrum
13%
Atomic Force Microscopy
10%
Annealing
10%
Electron Beam Evaporation
10%
Green
9%
Sublimation
7%
X-Ray Diffraction
6%
Glass Substrate
6%
Grain Size
6%
Cubic Space Group
5%
Red
4%
Shape
4%
Pressure
3%
Physics & Astronomy
oxidation
55%
thin films
38%
photoluminescence
26%
water vapor
22%
air
13%
atomic force microscopy
11%
wavelengths
10%
annealing
9%
sublimation
8%
diffraction
8%
x rays
6%
atmospheric pressure
6%
film thickness
6%
evaporation
5%
grain size
5%
preparation
5%
electron beams
5%
atmospheres
5%
glass
4%
excitation
3%