Engineering & Materials Science
Carrier concentration
100%
Charge density
99%
Ionic liquids
97%
Semiconductor materials
62%
Polymers
51%
Semiconducting polymers
23%
Thiophene
19%
Hole mobility
19%
Charge carriers
17%
Transport properties
14%
Doping (additives)
13%
Activation energy
12%
Electrolytes
11%
Transistors
10%
Temperature
9%
Geometry
7%
Electric potential
6%
Experiments
4%
Chemical Compounds
Electrochemical Cell Potential
86%
Charge Density
67%
Semiconductor
53%
Ionic Liquid
53%
Conductivity
46%
Hole Transport
9%
Hole Mobility
9%
1-Ethyl-3-Methylimidazolium
9%
Charge Carrier
7%
Transport Property
7%
Thiophene
7%
Drop
6%
Tris
6%
Compound Mobility
5%
Voltage
5%
Reaction Activation Energy
5%
Liquid Film
3%
Physics & Astronomy
conductivity
46%
polymers
41%
liquids
37%
rings
10%
thiophenes
9%
hole mobility
8%
charge carriers
6%
electrolytes
6%
transistors
6%
transport properties
6%
activation energy
5%
temperature
4%
geometry
4%
coefficients
4%
electric potential
4%