Ingénierie et Science des Matériaux
Reduced Graphene Oxide
73%
Oxidation
67%
Space telescopes
65%
Catalysts
64%
Magnetron sputtering
61%
Sputtering
58%
Optical properties
57%
Glycerol
56%
Nitrophenols
55%
Nitrides
55%
Photoluminescence
49%
Silicon carbide
49%
Nanocomposites
49%
Chromium
48%
Thin films
43%
Orbits
40%
Substrates
38%
Earth (planet)
38%
Catalyst activity
38%
Radiation
36%
Reactive sputtering
36%
Nitrogen
35%
Water
33%
Microanalysis
31%
Recovery
31%
Microstructure
30%
Electrons
30%
Ionization
29%
Mechanical properties
29%
Particle size
28%
Characterization (materials science)
28%
Nanospheres
25%
Radiators
25%
Chemical analysis
24%
Debris
24%
Spectrophotometry
23%
Atoms
23%
Cells
22%
Electron microscopes
21%
Fluorine
21%
Raman spectroscopy
20%
Rats
20%
Electron microscopy
19%
Dissolved oxygen
19%
X ray diffraction analysis
19%
Materials properties
19%
Spatial distribution
19%
Reflection high energy electron diffraction
18%
X ray photoelectron spectroscopy
18%
Leaching
18%
Modulation
17%
Scanning
17%
Inspection
17%
Scanning tunneling microscopy
16%
X ray spectroscopy
15%
Irradiation
15%
Temperature
15%
Nanoparticles
15%
Metals
14%
Molecular beam epitaxy
14%
Transition metals
13%
Electric potential
11%
Carbon
11%
Graphene
10%
Composite materials
8%
Degradation
6%
Air
5%
Physique & Astronomie
margins
100%
nanoparticles
61%
safety
58%
therapy
58%
protons
49%
proton beams
46%
monitors
43%
chromium
42%
nitrides
42%
dosage
40%
magnetron sputtering
38%
emitters
38%
recovery
37%
sputtering
35%
solar cells
34%
oxidation
33%
cycles
30%
tumors
29%
delivery
29%
polymers
26%
penetration
25%
thin films
23%
cratering
23%
energy
22%
ions
21%
mechanical properties
20%
slabs
20%
optical properties
19%
irradiation
19%
microstructure
17%
cross sections
17%
in situ measurement
17%
chlorine
16%
polymethyl methacrylate
15%
metals
15%
chlorides
15%
impedance matching
14%
impulses
13%
energy conversion efficiency
13%
characterization
13%
silicon
12%
flux density
12%
electromagnetic absorption
11%
nitrogen
11%
wavelengths
10%
atmospheres
10%
ionization
10%
modulation
10%
integrity
9%
lithography
9%
oxygen
9%
high energy electrons
9%
scanning tunneling microscopy
8%
profiles
8%
electric potential
8%
photoelectric emission
7%
electron diffraction
7%
atoms
7%
transition metals
7%
pulses
7%
excitation
7%
physics
7%
augmentation
6%
degradation
6%
synthesis
6%
simulation
5%
probes
5%
air
5%
performance
5%
composés chimiques
Magnetron Sputtering
53%
Clearance
49%
Sputtering
49%
Chetomin
48%
Dosage Form
47%
Energy
47%
Nitride
44%
Itraconazole
41%
Glycerol
39%
Graphene Oxide
36%
4-Nitrophenol
35%
Dissolution
34%
Reactive Sputtering
34%
Surface
34%
Optical Property
33%
Catalyst
31%
Amorphous Material
31%
Microstructure
30%
Oxidation Reaction
27%
Extrusion
26%
Solubility
26%
Reaction Yield
24%
Deposition Process
24%
Drug
24%
Photoluminescence
23%
Nitrogen
23%
Fluorescence
22%
Biological Marker
20%
Hole (Electron)
18%
Ionization
18%
Cathode
16%
Voltage
16%
X-Ray Diffractometry
16%
Reflection High Energy Electron Diffraction
14%
Simulation
14%
Spectrophotometry
13%
Fluorine Atom
13%
Electron Microscopy
13%
X-Ray Photoemission
11%
Raman Spectroscopy
11%
Amorphization
11%
X-Ray Photoelectron Spectroscopy
10%
Amount
10%
Rutherford Backscattering Spectroscopy
9%
UV/VIS Spectroscopy
9%
Scanning Tunneling Microscopy
9%
Photoelectron Spectroscopy
9%
Ion
9%
Photoionization
8%
Porosity
8%
Ambient Reaction Temperature
8%
Electron Particle
8%
Synchrotron Radiation
8%
Nanoparticle
7%
Foil
7%
Composite Material
7%
Instrumentation
7%
Dioxygen
7%
Photon
7%
Carbon Atom
7%
Mixture
6%
Transition Element
6%
Differential Scanning Calorimetry
6%
Graphene
6%
Volume
5%
Homogeneity
5%