Keyphrases
Chemical Reduction
9%
Degradation Efficiency
9%
Degradation Rate
9%
Electron-hole Pair
9%
Enhanced Degradation
9%
Enhanced Photocatalytic Activity
9%
Environmentally Friendly Approach
9%
Facile Method
9%
Glass Surface
9%
Gold Film
9%
Hot Electrons
9%
Industrial By-products
9%
Laser Annealing
9%
Laser Cladding
100%
Methylene Blue
9%
Microfluidic Device
100%
Nanogold
9%
Next-generation Semiconductor
9%
Photocatalytic
18%
Photocatalytic Degradation
100%
Semiconductor Silicon
9%
Silicon Carbide
100%
Silicon Carbide Powder
9%
Sputter Deposition
9%
Surface Plasmon Resonance
9%
Sustainable Development
9%
Water Pollutants
100%
Engineering
Chemical Reduction
50%
Degradation Rate
50%
Generated Electron
50%
Glass Surface
50%
Hole Pair
50%
Hot Electron
50%
Laser Cladding
100%
Microfluidic Device
100%
Surface Plasmon
50%
Sustainable Development
50%
Chemical Engineering
Enhanced Degradation
8%
Enhanced Photocatalytic Activity
8%
Film
8%
Laser Cladding
100%
Photocatalytic Degradation
100%
Silicon Carbide
100%
Sputter Deposition
8%
Material Science
Annealing
8%
Film
8%
Hot Electron
8%
Silicon Carbide
100%
Sputter Deposition
8%
Surface (Surface Science)
8%
Surface Plasmon Resonance
8%