Engineering & Materials Science
Thin film transistors
100%
Thin films
53%
Ferroelectric materials
49%
Nanotubes
47%
Oligomers
44%
Doping (additives)
41%
Methanol
37%
Vacuum
36%
Polymers
31%
Buffer layers
30%
Electrodes
30%
Hydrogen production
30%
Polymethyl methacrylates
28%
Organic field effect transistors
27%
Molecules
22%
Transistors
22%
Thiophene
22%
Contact resistance
20%
Electrons
19%
Monolayers
18%
Fabrication
18%
Palladium
17%
Butyric acid
17%
Microscopic examination
17%
Graphene nanoribbon
17%
Fullerenes
16%
Thermionic emission
16%
Gases
16%
Dimers
16%
Photocatalysis
15%
Electric potential
15%
Gates (transistor)
15%
Substrates
15%
Copolymers
14%
Titanium dioxide
14%
Decomposition
14%
Hydrogen
14%
Hall effect
14%
Vacancies
14%
Organic semiconductor materials
14%
Gold
14%
Self assembled monolayers
13%
Parameter extraction
13%
Oxygen
13%
Hole mobility
13%
Carrier concentration
12%
Partial pressure
12%
Annealing
12%
Conjugated polymers
12%
Field emission
11%
Physics & Astronomy
thin films
72%
transistors
68%
nanotubes
46%
oligomers
45%
hydrogen production
44%
vinylidene
43%
methyl alcohol
42%
fluorides
38%
high vacuum
36%
polymers
25%
electrodes
24%
decomposition
23%
vapor phases
22%
titanium oxides
20%
thiophenes
18%
polymethyl methacrylate
16%
palladium
15%
microscopy
15%
fabrication
14%
hydrogen
14%
probes
14%
electric potential
14%
buffers
13%
contact resistance
12%
alkali halides
12%
traps
12%
membranes
11%
illumination
11%
titanium
11%
atomic force microscopy
11%
fullerenes
11%
molecules
11%
thermionic emission
11%
formaldehyde
10%
composite materials
10%
electric contacts
10%
water
10%
oxygen
10%
dimers
9%
partial pressure
9%
mass spectrometers
9%
electrons
9%
field effect transistors
9%
purity
9%
gold
9%
gas reactors
8%
acids
8%
graphene
8%
butyric acid
8%
field emission
8%
Chemical Compounds
Vacuum
30%
Field Effect
22%
Pentacene
22%
Liquid Film
21%
Nanotube
21%
Vinylidene Fluoride
20%
Schottky Contact
19%
Methanol
19%
Kelvin Probe Force Microscopy
15%
Nonconductor
14%
Doping Material
14%
Buffer Solution
13%
Bilayer Membrane
12%
Schottky Barrier
12%
Oligomer
12%
Hole Mobility
11%
Illumination
11%
Monolayer
11%
Benzimidazole
11%
Voltage
11%
Compound Mobility
10%
Palladium
10%
Decomposition
10%
Non-Contact AFM
10%
Multilayer
9%
Ferroelectric Film
9%
Behavior as Electrode
8%
Self Assembled Monolayer
8%
Gas
8%
Molecule
8%
Electron Trap
8%
Simulation
8%
Surface
8%
Hall Effect
7%
Reflectivity
7%
Photocatalytic Oxidation
7%
Methyl Ester
7%
Semiconductor
6%
Hydrogen
6%
Partial Pressure
6%
Alternating Copolymer
6%
Molecular Crystal
6%
Electron Particle
6%
Photoconductivity
6%
Terephthalic Acid
6%
Field Emission
6%
Electrical Property
6%
Composite Material
6%
Copper Oxide
5%
Resistance
5%
