Engineering & Materials Science
Superhydrophobicity
90%
Multiwalled carbon nanotubes (MWCN)
73%
Wetting
65%
Adhesion
50%
Contact angle
44%
Water
40%
Carbon nanotubes
31%
Liquids
30%
Coatings
30%
Characterization (materials science)
29%
Lubricants
28%
Microscopic examination
27%
Surface tension
25%
Friction
23%
Adhesives
17%
Substrates
17%
Amorphous carbon
15%
Van der Waals forces
14%
Sensors
14%
Scanning
14%
Capillarity
13%
Scanning probe microscopy
11%
Fouling
11%
Electrostatics
10%
Nanostructures
10%
Single-walled carbon nanotubes (SWCN)
10%
Raman spectroscopy
9%
Chemical vapor deposition
8%
Velocity measurement
6%
Surface topography
5%
Surface properties
5%
Painting
5%
Spraying
5%
Air
5%
Defects
5%
Physics & Astronomy
surface water
70%
microbalances
62%
wetting
55%
carbon nanotubes
50%
arc discharges
43%
detachment
31%
document markup languages
26%
communication
24%
adhesion
22%
wings
21%
birds
19%
liquids
17%
water
15%
adhesives
14%
microscopy
14%
interfacial tension
13%
wettability
12%
abrasion
12%
tensiometers
9%
spatial resolution
9%
Van der Waals forces
8%
scanning
8%
interlayers
6%
cleaning
6%
irregularities
6%
biology
6%
assembly
6%
Raman spectroscopy
6%
interactions
5%
vapor deposition
5%
electrostatics
5%
tubes
5%
chemical composition
5%
antifouling
5%
heat transfer
5%
slip
5%
Chemical Compounds
Force
100%
Multi Walled Nanotube
49%
Surface
48%
Communication
26%
Coating Agent
23%
Scanning Probe Microscopy
18%
Heterogeneity
17%
Conductance
14%
Single Walled Nanotube
13%
Chemical Vapour Deposition
13%
Liquid
13%
Label
12%
Raman Spectroscopy
11%
Repellent
11%
Error
11%
Capillarity
10%
Antifouling
10%
Conductivity
9%
Resistance
9%
Hydrophobic Surface
8%
Van Der Waals Force
7%
Coating Process
6%
Nanomaterial
5%
Amorphous Material
5%