Engineering & Materials Science
Field effect transistors
100%
Nanotubes
89%
Cell membranes
47%
Microelectrodes
31%
Phospholipids
18%
Electrophysiology
17%
Acoustic impedance
17%
Nanowires
14%
Clamping devices
13%
Multiplexing
11%
Electrolytes
11%
Seals
11%
Signal to noise ratio
9%
Glass
9%
Carbon
8%
Metals
7%
Bandwidth
7%
Electric potential
6%
Physics & Astronomy
recording
74%
field effect transistors
73%
nanotubes
53%
impedance
14%
electrophysiology
13%
clamps
11%
temporal resolution
9%
multiplexing
9%
electrical measurement
8%
performance
8%
electrolytes
7%
signal to noise ratios
7%
nanowires
7%
spatial resolution
7%
bandwidth
6%
carbon
6%
probes
5%
glass
5%
electric potential
5%
configurations
5%
metals
4%
simulation
3%
Medicine & Life Sciences
Nanotubes
77%
2-(4-ethoxybenzyl)-1-diethylaminoethyl-5-isothiocyanatobenzimidazole
34%
Microelectrodes
21%
Cell Membrane
20%
Electric Impedance
19%
Nanowires
15%
Equipment Design
13%
Signal-To-Noise Ratio
10%
Electrophysiology
10%
Patch-Clamp Techniques
10%
Carbon
9%
Membrane Potentials
9%
Electrolytes
9%
Cytosol
9%
Glass
9%
Cardiac Myocytes
8%
Phospholipids
8%
Metals
8%
Chemical Compounds
Field Effect
92%
Nanotube
75%
Electric Potential
20%
Nanowire
13%
Glass
10%
Simulation
9%
Probe
9%
Length
9%
Carbon Atom
7%
Metal
7%