Keyphrases
Dewetting
100%
Nanopatterning
100%
Physical Vapor Deposition
100%
Focused Laser
100%
Gold Thin Films
100%
Thermocapillary
50%
Particle Distribution
25%
Non-equilibrium
25%
Nanomaterials
25%
Thermal Effect
25%
Viscous Force
25%
Capillary
25%
Metallic Thin Films
25%
Laser-induced
25%
Laser Scanning
25%
Laser Parameters
25%
Vapor Pressure
25%
Physical Vapor Deposition Processes
25%
Polymer Thin Films
25%
Subwavelength
25%
Vaporization
25%
Nanoscale Features
25%
Writing Speed
25%
Overlapping Effect
25%
Polymeric Films
25%
Laser Power
25%
High Surface Tension
25%
Numerical Aperture
25%
Scanning Distance
25%
Coupled Thermal
25%
Scan Control
25%
Low Melt Viscosity
25%
Continuous-wave Laser
25%
Borosilicate Glass Substrate
25%
Fluid Effect
25%
Superstrate
25%
Quartz Glass Substrate
25%
Working Range
25%
Uniform Particles
25%
Low Oxidation Potential
25%
Engineering
Nanoscale
100%
Thin Films
100%
Physical Vapor Deposition
100%
Drying
100%
Nonequilibrium
25%
Nanomaterial
25%
Viscous Force
25%
Metallic Thin Film
25%
Deposition Process
25%
Laser Parameter
25%
High Vapor Pressure
25%
Vaporization
25%
Melt Viscosity
25%
Continuous Wave
25%
Laser Power
25%
Numerical Aperture
25%
Silicon Dioxide
25%
Glass Substrate
25%
Material Science
Thin Films
100%
Physical Vapor Deposition
100%
Surface Tension
20%
Oxidation Reaction
20%
Polymer Films
20%
Vapor Phase Deposition
20%
Borosilicate
20%
Nanostructured Material
20%