Keyphrases
Gallium Nanoparticles
90%
Plasmonic Nanostructures
54%
Surface Anodization
54%
Liquid Gallium
54%
Plasmonic Tuning
54%
Localized Surface Plasmon Resonance
54%
Oxide Shell
21%
Mechanical Stress
18%
Optical Response
18%
Highly Tunable
18%
Particle Deformation
10%
Anodic Oxide
10%
Resonance Tunability
10%
Electrochemical Anodization
10%
Particle Shape
10%
Finite-difference Time-domain Simulation
10%
Dimpled Surface
10%
Anodization Time
10%
Tunable Plasmonic Properties
10%
Shell Thickness
10%
Surface Topography
10%
Resonant Response
10%
Resonance Wavelength
10%
Shape Deformation
10%
Anodization Voltage
10%
Deposition Surface
9%
Elastomer Film
9%
Adhesion
9%
Costing Methods
9%
Shift Error
9%
Nanopatterning
9%
Wavelength Shift
9%
Mechanical Changes
9%
Surface Modification
9%
Technique Modification
9%
Plasmonic Color Filters
9%
Optical Characterization
9%
Lithography-free
9%
Au@Ag Nanoparticles
9%
Ambient Temperature
9%
Physical Vapor Deposition Processes
9%
Plasmonic Materials
9%
Adjusting Parameters
9%
Modification Process
9%
Optical Properties
9%
Dynamic Control
9%
Nanogap
9%
Cycling Test
9%
Spectral Range
9%
Plasmonic Devices
9%
Filter Method
9%
Strongly Reversible
9%
Deposition Process
9%
Gap Size
9%
Substrate Surface
9%
Elastomer
9%
Tenability
9%
Self-assembly
9%
Material Science
Nanoparticle
100%
Gallium
90%
Surface Plasmon
54%
Anodizing
54%
Nanostructure
54%
Oxide Compound
21%
Surface (Surface Science)
20%
Mechanical Stress
18%
Elastomer
18%
Particle Shape
10%
Finite Difference Method
10%
Surface Topography
10%
Lithography
9%
Optical Property
9%
Plasmonic Metamaterials
9%
Control Dynamics
9%
Physical Vapor Deposition
9%
Film
9%
Self Assembly
9%
Surface Modification
9%