Engineering & Materials Science
Adsorbates
100%
Electrons
91%
Density functional theory
88%
Scanning tunneling microscopy
76%
Silver
45%
Dimers
44%
Surface reactions
44%
Diamonds
41%
Adsorption
40%
Silicon
37%
Nitrogen
33%
Molecules
31%
Halogenation
27%
Temperature programmed desorption
26%
Plasmas
25%
Electron energy loss spectroscopy
24%
Microwaves
24%
Substrates
23%
Molecular dynamics
21%
Nitridation
21%
Atoms
21%
X ray photoelectron spectroscopy
21%
Chain length
19%
Reagents
18%
Monolayers
17%
Hydrogenation
17%
Hot Temperature
16%
Semiconductor materials
15%
Ethylene
14%
Potential energy surfaces
12%
Physisorption
11%
Metals
11%
Ultrahigh vacuum
10%
Bromine
10%
Excited states
10%
Desorption
10%
Charge transfer
8%
Adatoms
8%
Temperature
8%
Experiments
7%
Covalent bonds
7%
Electronic states
7%
Ground state
6%
Nitrogen plasma
6%
Stoichiometry
6%
Chemical reactivity
5%
Chemisorption
5%
Carbon
5%
Chemical modification
5%
Charge injection
5%
Chemical Compounds
Scanning Tunneling Microscopy
70%
Surface
65%
1-Bromopropane
54%
Density Functional Theory
42%
Surface Reaction
39%
Diamond
33%
Electron Particle
28%
Molecular Rotation
26%
Liquid Film
26%
Tetramer
25%
Microwave
22%
Adsorption
22%
Nitrogen
21%
Molecule
19%
Electron Attachment
19%
High Resolution Electron Energy Loss Spectroscopy
19%
Vibrational Excitation
18%
Heterogeneous Catalysis
18%
Ambient Reaction Temperature
18%
Physisorption
17%
Dissociative Adsorption
17%
Plasma
17%
Electronic Excitation
16%
Energy
15%
Vacuum
15%
Transition State
15%
Chemical Reactivity
14%
Molecular Dynamics
14%
Simulation
14%
Monolayer
13%
Bromine Atom
13%
Semiconductor
12%
Adatoms
12%
Ab Initio Calculation
12%
Heterodimer
10%
Bromide
10%
Hydrogenation
10%
Desorption
9%
Potential Energy Surface
9%
1,2-dibromoethane
9%
Catalysis
8%
Probe
8%
Chemistry
8%
Metal
8%
Oxide
7%
Single Bond
7%
Tunneling
7%
Covalent Bond
7%
Dioxygen
6%
Dissociation
6%
Physics & Astronomy
density functional theory
51%
adsorption
44%
dimers
34%
silver
34%
diamonds
33%
scanning tunneling microscopy
32%
nitrogen
26%
electrons
23%
silicon
19%
molecular rotation
19%
microwaves
18%
electron attachment
17%
hydrogenation
15%
molecules
14%
self assembly
14%
attachment
13%
ethylene
13%
selectivity
13%
desorption
12%
adatoms
12%
room temperature
11%
electron energy
11%
catalysis
11%
excitation
11%
energy dissipation
11%
atoms
11%
gold
10%
configurations
9%
phenyls
9%
oxides
8%
high resolution
8%
oxygen
8%
spectroscopy
7%
surface reactions
7%
electronics
5%
impulses
5%
interactions
5%
products
5%
troughs
5%
reagents
5%
photoelectron spectroscopy
5%
