Chemistry
Ultra-Violet Photoelectron Spectroscopy
100%
Energy Dispersive X-Ray Fluorescence Spectroscopy
70%
Azide
54%
Pyrolysis
54%
Photoionization
53%
Photoelectron
51%
X-Ray Fluorescence
47%
IR Spectroscopy
45%
Photon
45%
Chemical Element
44%
Photoelectron Spectroscopy
44%
Angle Resolved Synchrotron Radiation Photoelectron Spectroscopy
39%
Rydberg State
37%
Photoelectron Spectrum
36%
Ionization Potential
35%
Ionization
34%
Synchrotron Radiation
33%
Electronic State
32%
Spectroscopy
32%
Decomposition
27%
Resonance
23%
Imine
22%
Soil
21%
Asymmetry
20%
Energy
18%
Ketenimine
16%
Mass Spectrometry
14%
Metalloid
14%
Analytical Calibration
14%
Core Level
13%
Vacuum
13%
Fluorescence Method
13%
Molecular Ion
12%
Electron Impact
12%
Fragmentation
12%
Tautomerization
12%
Pellet
10%
Molecular Orbital
10%
Biological Marker
10%
Binding Energy
9%
Mass Spectrum
9%
Compton Scattering
9%
Formaldehyde
9%
Alkane
9%
Heavy Metal
9%
Acid
9%
Methanimine
9%
Grain Size
8%
Dioxygen
8%
Transition Element
8%
Physics & Astronomy
photoelectron spectroscopy
71%
ionization
44%
photoionization
42%
photoelectrons
39%
thermal decomposition
37%
ultraviolet spectroscopy
31%
synchrotron radiation
25%
photons
24%
isolation
24%
infrared spectroscopy
23%
thresholds
20%
decomposition
19%
electronic structure
19%
synchrotrons
19%
energy
18%
vapor phases
17%
spectroscopy
17%
angular distribution
16%
cross sections
16%
imines
15%
tautomers
15%
matrices
14%
asymmetry
14%
acids
13%
acetates
12%
products
11%
radiation sources
11%
pyrolysis
11%
molecular orbitals
11%
Rydberg series
11%
oxygen
10%
atoms
9%
adsorption
8%
radiation measurement
7%
binding energy
6%
envelopes
6%
activation energy
6%
methylidyne
5%
benzene
5%
excitation
5%
Engineering & Materials Science
Ultraviolet photoelectron spectroscopy
38%
Photoelectrons
34%
Infrared spectroscopy
30%
Synchrotron radiation
23%
Nepheline syenite
22%
Pyrolysis
21%
Metalloids
20%
Acids
20%
Photoelectron spectroscopy
18%
Photoionization
18%
Core levels
17%
Binding energy
17%
X ray photoelectron spectroscopy
15%
Metals
14%
Minerals
14%
Spectroscopy
12%
Electrons
11%
Adsorption
10%
Orbital calculations
10%
Molecular orbitals
9%
Spatial distribution
9%
Molecules
9%
Soils
8%
Ionization
7%
Decomposition
6%
Apatite
6%
Strategic materials
6%
Fluorescence
5%
Oxides
5%
Chemisorption
5%
Carbon
5%
Gases
5%
Sulfide minerals
5%
