Engineering
Oil-Water Emulsion
100%
Liquid Droplet
100%
Demonstrates
66%
Non-Wetting
66%
Solid Fraction
50%
Contact Line
41%
Apparent Contact Angle
33%
Nanoparticles
33%
Oil Spill
33%
Surface Wettability
33%
Liquid Surface
33%
Relative Importance
33%
Drop Dynamics
33%
Ultraviolet Light
33%
Contact Angle Hysteresis
33%
Lattice-Boltzmann Method
33%
Boltzmann Equation
33%
Body Force
33%
Lubricant Viscosity
33%
Fluid System
33%
Lubricant Film
33%
Directional
33%
Liquid Drop
33%
Droplet Size
33%
Receding Angle
16%
Length Scale
16%
Ambient Environment
16%
Structure Surface
16%
Shale Gas
16%
Microstructure
16%
Clean Water
16%
Scanning Electron Microscope
16%
Ray Diffraction
16%
Advancing Angle
16%
Flat Surface
16%
Contact Angle Measurement
16%
Silanization
16%
Appreciable Change
16%
Oil Lubrication
16%
Fluid Surface
16%
Oil Well
16%
Experimental Observation
16%
Hydrophobic
16%
Titania (Tio2)
16%
Future Application
16%
Gas Entrapment
16%
Submerged Surface
16%
Stainless Steel
13%
Separation Efficiency
13%
Keyphrases
Droplet Transport
33%
Self-propelled Droplets
33%
Bidirectional Motion
33%
Under Air
33%
Titanium Film
33%
In Situ
33%
Superhydrophobic Surface
33%
Surface Wettability
33%
Contact Angle
33%
Abrasive Paper
33%
Rutile
33%
Photoinduced
33%
Photocatalytic Membrane
33%
Coating-free
33%
Pressure Cycling
33%
Insect-inspired
33%
Laplace Model
33%
Wettability Alteration
22%
Resistance to Motion
16%
Wettability Contrast
16%
Self-propelled Motion
16%
Wetting Gradient
16%
Aquatic Insects
16%
Submerged Surfaces
16%
Marine Insects
16%
Ambient Environment
11%
Separated Water
11%
Advance Angle
11%
Ultraviolet Irradiation
11%
Organic Degradation
11%
Superhydrophobic
11%
Superhydrophilic
11%
Facile Method
11%
Cassie State
11%
Wenzel State
11%
Silanization
11%
UV Radiation
11%
Receding Angle
11%
Material Science
Contact Angle
70%
Oil-Water Emulsion
66%
Wettability
66%
Superhydrophobic
43%
Titanium Dioxide
38%
Film
38%
Nanoparticle
33%
Spray Forming
33%
Titanium Oxide
33%
Drop Dynamics
33%
Lattice-Boltzmann Method
33%
Shale Gas
16%
Lubrication
16%
Surface Structure
16%
X-Ray Diffraction
16%
Surface Tension
16%
Scanning Electron Microscopy
16%
Hydrophobicity
16%
Pore Size
11%