Engineering & Materials Science
Adsorption
7%
Annealing
18%
Atoms
11%
Auger electron spectroscopy
9%
Band structure
6%
Binding energy
7%
Bond length
11%
Butyric acid
13%
Charge carriers
10%
Charge injection
11%
Charge transfer
30%
Conduction bands
16%
Conversion efficiency
9%
Copper
8%
Core levels
7%
Crystalline materials
16%
Defects
7%
Density functional theory
14%
Derivatives
13%
Dimers
7%
Doping (additives)
54%
Electric potential
6%
Electrodes
12%
Electron affinity
37%
Electron energy levels
37%
Electron energy loss spectroscopy
10%
Electron injection
12%
Electron spectroscopy
7%
Electron Transport
9%
Electronic equipment
8%
Electronic properties
34%
Electronic states
7%
Electronic structure
47%
Electrons
36%
Energy gap
19%
Epitaxial growth
8%
Esters
9%
Excitons
14%
Fermi level
52%
Fullerenes
9%
Geometry
13%
Gold
11%
Heterojunctions
51%
Indium
9%
Interface states
11%
Ionization potential
23%
Low energy electron diffraction
67%
Metal halides
15%
Metals
38%
Molecular beam epitaxy
10%
Molecular orbitals
24%
Molecules
47%
Molybdenum
10%
Molybdenum oxide
11%
Momentum transfer
6%
Monolayers
61%
Multiple scattering
9%
Negative ions
7%
Nickel oxide
9%
Open circuit voltage
18%
Optoelectronic devices
7%
Organic light emitting diodes (OLED)
11%
Organic semiconductor materials
41%
Organic solar cells
28%
Oxides
13%
Passivation
6%
Perovskite
40%
Perovskite solar cells
7%
Photocurrents
8%
Photoelectron spectroscopy
100%
Photoemission
22%
Polarons
7%
Polymer solar cells
18%
Polymers
17%
Positive ions
8%
Scanning tunneling microscopy
24%
Self assembled monolayers
13%
Semiconductor materials
37%
Silicon
11%
Singlet fission
6%
Solar cells
35%
Spectroscopy
8%
Substrates
30%
Surface structure
7%
Synchrotron radiation
13%
Temperature
15%
Thin film transistors
10%
Thin films
24%
Tin oxides
10%
Transition metal oxides
7%
Transport Layer
13%
Ultrahigh vacuum
7%
Ultraviolet photoelectron spectroscopy
25%
Ultraviolet spectroscopy
27%
Vacuum
11%
Valence bands
27%
Voltage measurement
6%
X ray photoelectron spectroscopy
15%
X rays
11%
Zinc Selenide
10%
Physics & Astronomy
adsorption
6%
air
5%
alignment
29%
aluminum
5%
annealing
9%
atomic structure
6%
Auger spectroscopy
6%
butyric acid
6%
carrier injection
5%
characterization
5%
charge transfer
11%
chemical properties
5%
chemistry
12%
conduction bands
5%
conductivity
7%
contact potentials
10%
copper
8%
defects
5%
diamines
9%
dimers
6%
dipoles
17%
electric contacts
8%
electric potential
9%
electrical measurement
7%
electrodes
10%
electron affinity
25%
electron diffraction
33%
electron energy
6%
electron spectroscopy
8%
electron transfer
6%
electronic structure
32%
electronics
28%
electrons
17%
energy
20%
energy dissipation
5%
energy levels
21%
engineering
5%
esters
5%
fullerenes
6%
geometry
12%
gold
12%
heterojunctions
25%
indium oxides
10%
injection
26%
interactions
6%
ionization
8%
light emitting diodes
7%
magnesium
6%
metal halides
6%
metal oxides
7%
metallicity
5%
metals
30%
molecular orbitals
22%
molecules
25%
molybdenum
6%
negative electron affinity
6%
open circuit voltage
7%
organic semiconductors
48%
oxides
5%
oxygen
5%
passivity
8%
performance
6%
perovskites
8%
phenyls
8%
photoelectric emission
69%
photoelectron spectroscopy
20%
photovoltages
10%
polymers
16%
probes
6%
quinoline
7%
room temperature
9%
scanning tunneling microscopy
16%
shift
8%
silicon
6%
solar cells
21%
spectroscopy
38%
synchrotron radiation
10%
thin films
19%
tin oxides
10%
transistors
12%
transition metals
5%
ultrahigh vacuum
5%
ultraviolet spectroscopy
15%
vacuum
7%
valence
12%
x rays
11%
zinc
5%
Chemical Compounds
Ambient Reaction Temperature
5%
Annealing
11%
Auger Electron Spectroscopy
5%
Band Bending
19%
Band Gap
13%
Behavior as Electrode
8%
Charge Carrier
7%
Charge Transfer
15%
Chemistry
6%
Conduction Band
8%
Conductivity
8%
Density Functional Theory
7%
Density of State
14%
Dipole
22%
Donor
6%
Doping Material
17%
Electron Energy Loss Spectroscopy
7%
Electron Particle
16%
Electron Spectroscopy
5%
Electron Transport
9%
Electronic Property
15%
Electronic State
33%
Energy
24%
Exciton
8%
Fermi Level
39%
Halide
12%
Highest Occupied Molecular Orbital
10%
Hole Transport
18%
Interface State
6%
Inverse Photoemission
5%
Inverse Photoemission Spectroscopy
31%
Ionization Potential
11%
Lamination
6%
Liquid Film
30%
Low Energy Electron Diffraction
27%
Lowest Unoccupied Molecular Orbital
9%
Metal
21%
Methyl Ester
6%
Modification
5%
Molecular Beam Epitaxy
5%
Molecular Cluster
5%
Molecule
15%
Molybdenum Oxide
6%
Molybdenum Trioxide
5%
Monolayer
34%
Organic Molecule
7%
Oxide
7%
Pentacene
26%
Photocurrent
6%
Photoelectron Spectroscopy
27%
Photoemission
15%
Photovoltage
11%
Phthalocyanine
7%
Scanning Tunneling Microscopy
16%
Schottky Barrier
15%
Self Assembled Monolayer
12%
Semiconductor
51%
Solar Cell
28%
Surface
38%
Surface Structure
6%
Synchrotron Radiation
7%
Tris
11%
Tunneling
9%
Ultra-Violet Photoelectron Spectroscopy
47%
Vacuum
14%
Valence Band
14%
Voltage
17%
Work Function
44%
