Engineering & Materials Science
Diamonds
99%
Electron emission
70%
Electron affinity
67%
Raman scattering
65%
Diamond films
64%
Thin films
51%
Substrates
45%
Plasmas
40%
Silicides
33%
Silicon
32%
Temperature
32%
Field emission
31%
Photoelectron spectroscopy
30%
Annealing
29%
Hydrogen
29%
Conduction bands
28%
Ultraviolet spectroscopy
25%
Raman spectroscopy
24%
Thermionic emission
24%
Oxides
23%
Titanium
23%
Electrons
21%
Diodes
21%
Amorphous silicon
21%
Phonons
21%
Nitrogen
20%
Chemical vapor deposition
20%
Photoemission
20%
Crystalline materials
20%
Microscopic examination
19%
Characterization (materials science)
19%
Photoluminescence
19%
Atomic layer deposition
19%
Semiconducting diamonds
18%
Single crystals
18%
Metals
17%
Valence bands
17%
Carbon
17%
Atomic force microscopy
17%
Cobalt
16%
Energy conversion
15%
Crystals
15%
Gate dielectrics
15%
Surface morphology
14%
Transition metals
14%
Plasma enhanced chemical vapor deposition
14%
Oxygen
14%
Ultrahigh vacuum
13%
Low energy electron diffraction
13%
Nitrides
13%
Chemistry
Diamond
100%
Liquid Film
54%
Electron Emission
45%
Surface
42%
Alloy
28%
Schottky Barrier
25%
Field Emission
23%
Annealing
22%
Band Offset
19%
Plasma
19%
Photoelectron
17%
Dielectric Material
17%
Vacuum
16%
Electron Particle
16%
Hydrogen
15%
Thermionic Emission
14%
Atomic Layer Epitaxy
14%
Energy
13%
Work Function
13%
Amorphous Silicon
12%
Amorphous Material
12%
Oxide
12%
Raman Spectrum
12%
Free Electron
12%
Semiconductor
11%
Raman Spectroscopy
11%
Conduction Band
11%
Electronic State
10%
Phonon
10%
UV Photoemission
10%
Tunneling
10%
Atomic Force Microscopy
9%
Nitride
9%
Nitrogen
9%
Single Crystalline Solid
9%
Carbon Atom
8%
Photoelectron Spectroscopy
8%
Photoemission
8%
Valence Band
8%
Plasma Enhanced Chemical Vapour Deposition
8%
Ultra-Violet Photoelectron Spectroscopy
7%
Band Bending
7%
Surface Roughness
7%
Dioxygen
7%
Photoionization
7%
Carbon Nanotube
7%
Photoluminescence
7%
Polarization
6%
Low Energy Electron Diffraction
6%
Microwave
6%
Physics & Astronomy
diamonds
62%
Raman spectra
30%
thin films
28%
silicides
28%
silicon
27%
diamond films
22%
electron emission
20%
negative electron affinity
20%
photoelectric emission
20%
titanium
19%
characterization
19%
microscopy
17%
annealing
17%
electron affinity
16%
vapor deposition
15%
hydrogen
15%
Raman spectroscopy
14%
photoelectrons
13%
electronics
12%
field emission
12%
atomic layer epitaxy
12%
cleaning
12%
amorphous silicon
12%
x rays
11%
temperature
11%
boron nitrides
11%
metals
11%
carbon
10%
nitrogen
10%
diodes
10%
spectroscopy
10%
valence
10%
oxides
10%
electric contacts
9%
cobalt
9%
free electron lasers
9%
atomic force microscopy
9%
ultrahigh vacuum
9%
conduction bands
9%
defects
9%
thermionics
9%
alignment
9%
transition metals
8%
oxygen
8%
thermionic emission
8%
Schottky diodes
8%
gallium nitrides
8%
photoelectron spectroscopy
8%
nitrides
8%
energy
7%
