Engineering & Materials Science
Desorption
80%
Hydrogen
55%
Activation energy
19%
Temperature programmed desorption
19%
Low energy electron diffraction
14%
Photoelectron spectroscopy
10%
Core levels
10%
Binding energy
10%
Rhenium
10%
Diffraction patterns
9%
Monolayers
8%
X ray photoelectron spectroscopy
7%
Electrons
6%
Diamonds
6%
Annealing
6%
Plasmas
5%
Cooling
4%
Chemical Compounds
Band Bending
100%
Desorption
53%
Hydrogen
35%
Surface
22%
Reaction Activation Energy
11%
Low Energy Electron Diffraction
7%
Core Level
6%
Filament
5%
Photoelectron Spectroscopy
5%
Diamond
5%
Cooling
4%
Binding Energy
4%
Annealing
4%
Monolayer
4%
X-Ray Photoelectron Spectroscopy
3%
Plasma
3%
Electron Particle
2%
Physics & Astronomy
desorption
61%
hydrogen
43%
kinetics
41%
activation energy
11%
photoelectron spectroscopy
8%
rhenium
6%
hydrogen plasma
6%
filaments
4%
binding energy
4%
electron diffraction
4%
diffraction patterns
4%
diamonds
4%
cooling
3%
annealing
3%
temperature
3%
symmetry
3%
x rays
2%
electrons
2%
energy
1%