Engineering & Materials Science
Atomic force microscopy
24%
Charge carriers
11%
Chemical analysis
9%
Core shell nanoparticles
17%
Coulomb interactions
9%
DNA
9%
Electric potential
16%
Electrodes
59%
Electron energy levels
21%
Electron tunneling
32%
Electronic states
17%
Electronic structure
22%
Electrons
20%
Electrostatics
9%
Excitons
16%
Fermi level
77%
Fullerenes
14%
Gold
17%
Hubbard model
9%
Infrared imaging
11%
Lithium Fluoride
14%
Magnetic fields
17%
Magnetoresistance
44%
Metal insulator transition
17%
Metals
27%
Microscopes
11%
Molecular electronics
30%
Molecular orbitals
11%
Molecular structure
12%
Molecules
80%
Nanoparticles
18%
Oligomers
13%
Organic semiconductor materials
20%
Paraffins
10%
Photocurrents
13%
Photodegradation
15%
Photoelectron spectroscopy
15%
Photoemission
21%
Potential energy
10%
Self assembled monolayers
75%
Single crystals
10%
Spectroscopy
29%
Spin orbit coupling
9%
Spintronics
14%
Stark effect
9%
Substitution reactions
9%
Temperature
13%
Transport properties
18%
Tunnel junctions
100%
Ultraviolet photoelectron spectroscopy
36%
Chemical Compounds
Alkane
15%
Asymmetry
9%
Atomic Force Microscopy
16%
Behavior as Electrode
39%
Biphenylene
13%
Charge Carrier
10%
Conductance
10%
Conduction Electron
13%
Corresponding State
13%
Deformation (Mechanical)
25%
Dithiol
84%
Electron Particle
13%
Electron Spin
27%
Electronic State
26%
Energy
20%
Exciton
9%
Fermi Level
42%
Flake Like Crystal
9%
Hole Mobility
11%
Infrared Imaging
13%
Interface State
11%
Isocyanide
10%
Length
25%
Magnetic Field
19%
Magnetoresistance
41%
Metal
9%
Metal Insulator Transition
13%
Molecular Electronics
32%
Molecule
23%
Nanoparticle
9%
Optoelectronics
11%
Orbital
10%
Perylene
10%
Photoelectron Spectroscopy
10%
Photoemission
14%
Potential Energy
9%
Probe
20%
Resistance
29%
Self Assembled Monolayer
50%
Semiconductor
9%
Spectroscopy
18%
Stark Effect
13%
Strain
9%
Tetracene
13%
Thiol
34%
Transport Property
22%
Tunneling
56%
Tunneling Conductance
17%
Ultra-Violet Photoelectron Spectroscopy
30%
Work Function
38%
Physics & Astronomy
alignment
7%
assemblies
9%
buffers
6%
capacitance
7%
conduction
5%
conduction electrons
9%
degradation
5%
deoxyribonucleic acid
8%
electric potential
11%
electrical measurement
9%
electrodes
23%
electrolytes
7%
electronics
18%
electrons
7%
energy
5%
excitons
7%
flakes
5%
fullerenes
9%
high vacuum
10%
hole mobility
5%
indium oxides
6%
injection
11%
insulators
6%
joints (junctions)
14%
luminance
5%
magnetic fields
10%
metals
5%
molecular orbitals
6%
molecular structure
9%
molecules
14%
nanoparticles
12%
naphthalene
11%
nitrogen
6%
oligomers
10%
orbits
5%
organic semiconductors
10%
phenyls
10%
photocurrents
8%
photoelectric emission
20%
photoelectron spectroscopy
6%
physical properties
7%
room temperature
7%
substitutes
7%
synchrotron radiation
5%
thiols
40%
tin oxides
6%
torque
6%
transistors
7%
transition metals
7%
tunnel junctions
32%