Engineering & Materials Science
Transition metal oxides
100%
Molybdenum
67%
Energy gap
66%
Doping (additives)
64%
Fermi level
40%
Thin films
33%
Ultraviolet photoelectron spectroscopy
27%
Electron energy levels
26%
Electron affinity
22%
Ionization potential
20%
Molecular orbitals
19%
Photoelectron spectroscopy
19%
Electrons
11%
Molecules
11%
Chemical activation
10%
Physics & Astronomy
molybdenum
57%
metal oxides
56%
transition metals
48%
broadband
40%
photoelectron spectroscopy
31%
energy levels
31%
thin films
29%
conductivity
25%
diamines
25%
ultraviolet spectroscopy
23%
electron affinity
22%
electron transfer
19%
molecular orbitals
19%
activation
15%
trapping
14%
ionization
13%
shift
11%
molecules
10%
energy
5%
Chemical Compounds
Molybdenum Trioxide
82%
Fermi Level
44%
Band Gap
43%
Doping Material
34%
Conductivity
25%
Molecular Cluster
25%
Ultra-Violet Photoelectron Spectroscopy
24%
Work Function
22%
Highest Occupied Molecular Orbital
21%
Ionization Potential
19%
Photoelectron Spectroscopy
19%
Energy
18%
Electron Transfer
13%
Molecule
6%