Engineering & Materials Science
Chemical sensors
100%
Thin films
83%
Nanoclusters
76%
Hydrogen
70%
Low temperature operations
44%
Nanoparticles
43%
Sputtering
41%
Capacitance
37%
Sensors
33%
Inert gases
28%
Temperature
27%
Ultrahigh vacuum
23%
Indium
22%
Electric potential
22%
Bias voltage
22%
Industrial applications
21%
Self assembly
19%
Electrodes
18%
Substrates
16%
Gases
15%
Thermal evaporation
14%
Condensation
14%
Capacitance measurement
12%
Hydrogen sulfide
11%
Voltage measurement
11%
Argon
9%
Doping (additives)
9%
Superconducting transition temperature
9%
Crystalline materials
9%
Nucleation
9%
Ethylene
9%
Costs
8%
Vacuum
7%
Glass
7%
Metals
5%
Composite materials
5%
Physics & Astronomy
capacitance
70%
thin films
68%
nanoparticles
59%
capacitance-voltage characteristics
54%
hydrogen
54%
sensors
53%
electrical measurement
49%
nanoclusters
48%
gases
45%
electric potential
35%
synthesis
31%
sputtering
29%
production costs
29%
rare gases
28%
temperature
26%
ultrahigh vacuum
23%
condensation
20%
self assembly
15%
requirements
15%
indium
14%
electrodes
13%
sensitivity
12%
transition temperature
11%
hydrogen sulfide
9%
conductivity
9%
masking
8%
high vacuum
7%
vacuum chambers
7%
ethylene
7%
solid state
6%
electrical properties
6%
scaling
6%
optical properties
5%
argon
5%
evaporation
5%
nonlinearity
5%
nucleation
5%
Chemical Compounds
Gas Sensor
88%
Hydrogen
44%
Voltage
31%
Sputtering
25%
Noble Gas Atom
25%
Nanoparticle
22%
Conductivity
19%
Sputtering Target
15%
Liquid Film
14%
Gas
14%
Vacuum Chamber
12%
Nucleation
12%
Behavior as Electrode
11%
Vacuum
11%
Condensation
10%
Hydrogen Sulfide
9%
Glass Substrate
8%
Application
7%
