Engineering & Materials Science
Atomic force microscopy
100%
Surface charge
90%
Microchannels
64%
Liquids
61%
Air cushioning
48%
Electrolytes
45%
Contact angle
35%
Adsorption
35%
Acoustics
34%
Charge injection
34%
Damping
31%
Fluids
30%
Hydrodynamics
29%
Nanoparticles
29%
Microscopic examination
29%
Electrostatic force
29%
Lubricating greases
28%
Surface defects
28%
Water
28%
Charge density
28%
Ions
27%
Defects
26%
Solvation
25%
Acoustic streaming
25%
Minerals
23%
Kaolinite
23%
Viscosity
22%
Spectroscopy
21%
Wetting
21%
Amplitude modulation
20%
Silica
20%
Air
19%
Hydration
19%
Charge trapping
18%
Microscopes
17%
Wave interference
17%
Carbon nanofibers
17%
Oils
17%
Colloids
16%
Imaging techniques
16%
Solid electrolytes
16%
Oil well flooding
16%
Hexane
16%
Momentum transfer
16%
Characterization (materials science)
15%
Thin films
15%
Stick-slip
15%
Rheology
15%
Electric fields
14%
Salts
14%
Physics & Astronomy
atomic force microscopy
72%
liquids
71%
wetting
68%
microchannels
62%
oils
56%
adsorption
54%
water
50%
dissipation
45%
liquid-solid interfaces
44%
greases
43%
actuation
37%
air
37%
flat surfaces
35%
wettability
29%
electrolytes
28%
ions
27%
sliding
26%
solid surfaces
26%
charge distribution
25%
high resolution
24%
trapping
24%
fluids
23%
electric potential
22%
fatty acids
22%
damping
21%
acoustics
21%
interactions
21%
defects
20%
slip
20%
alternating current
19%
hydrodynamics
18%
compressing
18%
minerals
17%
asphericity
17%
kaolinite
17%
fluoropolymers
16%
electrification
16%
viscosity
15%
configurations
15%
surface energy
15%
coalescing
14%
affinity
14%
electrodes
14%
silicon dioxide
14%
acrylates
14%
condensation
14%
rheology
13%
momentum transfer
13%
high speed
13%
condensates
13%
Chemistry
Atomic Force Microscopy
71%
Drop
67%
Force
60%
Liquid
50%
Dissipation
41%
Flow
29%
Surface Defect
28%
Bearing
26%
Hydrodynamics
25%
Charge Density
24%
Potential Well
22%
Electrostatic Force
20%
Equation of State
20%
Velocity
19%
Cylinder
18%
Voltage
18%
Nanoparticle
18%
pH Value
18%
Lubricating Grease
18%
Capillarity
16%
Rheology
15%
Simulation
15%
Electric Double Layer
15%
Solvation
15%
Shear
14%
Length
14%
Adsorption
14%
Sphere
13%
Carbon Nanofibre
12%
Diffusion
12%
Electrostatic Potential
12%
Surface Pressure
12%
Poly(tetrafluoroethylene)
12%
Solid Electrolyte
11%
Octamethylcyclotetrasiloxane
11%
Flexibility
11%
Ion
11%
Colloid
11%
Application
11%
Hexane
10%
Preconcentration
10%
Acrylate
10%
Electric Field
10%
Drag Coefficient
10%
Strength
10%
Energy Transfer
10%
Volume
9%
Time
9%
Shape
9%
