Engineering & Materials Science
Thin film transistors
61%
Electrodes
36%
Substrates
34%
Thin films
26%
Nuclear magnetic resonance
16%
Temperature
16%
Transistors
11%
Organic semiconductor materials
11%
Film growth
10%
Carrier transport
10%
Charge carriers
10%
Molecular structure
8%
Contact resistance
7%
Spectroscopy
7%
Threshold voltage
7%
Diffraction
7%
Grain boundaries
6%
X rays
6%
Hydrogen
5%
Mathematics
Thin-film Transistor
100%
Substrate
55%
Organic Semiconductors
13%
Contact Resistance
11%
X-ray Diffraction
10%
Grain Size
10%
Nuclear Magnetic Resonance
10%
Grain Boundary
10%
Hydrogen
9%
Spectroscopy
9%
High Performance
8%
Trap
8%
Voltage
7%
Charge
6%
Model
2%
Physics & Astronomy
transistors
38%
electrodes
29%
thin films
24%
nuclear magnetic resonance
10%
n-type semiconductors
8%
organic semiconductors
7%
room temperature
7%
molecular structure
7%
contact resistance
7%
threshold voltage
6%
charge carriers
6%
x ray diffraction
5%
grain size
5%
traps
5%
grain boundaries
5%
hydrogen
4%
temperature
4%
spectroscopy
3%
performance
3%
Chemical Compounds
Behavior as Electrode
24%
Field Effect
19%
Compound Mobility
14%
Contact Resistance
12%
Ambient Reaction Temperature
10%
Grain Boundary
9%
Liquid Film
9%
Charge Carrier
9%
Grain Size
9%
1H NMR Spectroscopy
7%
Semiconductor
7%
Voltage
6%
Molecular Structure
6%
NMR Spectroscopy
6%
Environment
5%
Hydrogen
4%