Material Science
Silicide
100%
Nanowire
93%
Cobalt
37%
Nucleation
25%
Low-Energy Electron Microscopy
25%
Epitaxy
23%
Silicon
22%
Density
20%
Reflection High-Energy Electron Diffraction
16%
Titanium
16%
Atomic Structure
16%
Monolayers
15%
Electronic Structure
13%
Schottky Barrier
13%
Transmission Electron Microscopy
11%
X-Ray Diffraction
11%
Transition Metal
11%
Annealing
10%
Magnetoresistance
9%
Superlattice
9%
Tin
9%
Scanning Electron Microscopy
9%
Dysprosium
9%
Surface Structure
9%
Quantum Dot
9%
Film
9%
Nanocrystalline Material
6%
Activation Energy
6%
X-Ray Photoelectron Spectroscopy
6%
Low-Energy Electron Diffraction
6%
Electrical Resistivity
6%
Coarsening
6%
Diffraction Measurement
6%
Intermetallics
6%
Chemical Vapor Deposition
5%
Keyphrases
Si(111)
40%
Nanowires
24%
Silicide
19%
Epitaxial
17%
Pd Alloys
13%
Electronic Structure
13%
Ni Alloy
13%
Ring Clusters
10%
Adatoms
10%
Silicide Nanowires
10%
D-band
9%
Suicide
9%
Titanium Silicide
9%
Atomic Structure
9%
FeSi2
9%
Ultra-high Vacuum
7%
Au Single Atom
6%
Rebonding
6%
In Alloy
6%
Room Temperature
6%
CoSi2
6%
Intensity Oscillations
6%
Au Atoms
6%
Stoichiometry
6%
Cobalt Atom
6%
Valence Band
6%
Scanning Tunneling Microscopy
6%
Buried Interface
5%
Lattice Gas
5%
X-ray Photoelectron
5%
Electropositive
5%
Engineering
Nanowires
41%
Energy Electron Diffraction
18%
Scanning Tunneling Microscopy
16%
Energy Engineering
14%
Room Temperature
11%
Photoelectron
11%
Ni Alloy
9%
Schottky Barrier
7%
Line Shape
7%
Core Level
6%
Local Density Approximation
6%
Binding Energy
6%
Photoemission
6%
Surface Process
6%
Nanoscale
6%
Surface Layer
6%
Transmissions
6%
High Resolution
5%
Scanning Tunneling Microscope
5%