Novel method for synthesis of engineered particulates with thin coatings

Engineering

• Energy Engineering 100%
• Aluminum Oxide 100%
• Pulse Duration 100%
• Laser Parameter 100%
• Laser Wavelength 100%
• Ray Photoelectron Spectroscopy 100%
• Nanosecond 100%
• Secondary Battery 100%
• Substrate Material 100%
• Cluster Size 100%
• Pulsed Laser Ablation 100%
• Surface Coverage 100%
• Atmospheric Aerosol 100%
• Flat Substrate 100%
• Excimer Laser 100%
• Flat Panel Display 100%
• Energy Density 100%
• Thin Films 100%
• Active Control 100%
• Sintering 100%

Keyphrases

• Particulate 100%
• Core Particle 100%
• Thin Film Coating 100%
• Laser Plume 50%
• Particulate Coatings 50%
• Wide-ranging 25%
• Laser Parameters 25%
• Energy Density 25%
• Aluminum Oxide 25%
• X-ray Photoelectron Spectroscopy 25%
• Rechargeable Batteries 25%
• Energy Dispersive X-ray Spectroscopy 25%
• Plume 25%
• Irradiation 25%
• Particle Size 25%
• Active Control 25%
• Surface Coverage 25%
• Laser Pulse 25%
• Pulse Duration 25%
• Laser Wavelength 25%
• Cluster Size 25%
• Residence Time 25%
• Substrate Material 25%
• Uniformly Discrete 25%
• Laser Deposition 25%
• Silver Particle Deposition 25%
• Laser Ablation Method 25%
• Particulate Systems 25%
• Excimer Laser 25%
• Pulsed Laser Ablation Technique 25%
• Flat Panel Display 25%
• Background Gas 25%
• Wavelength Dispersive 25%
• Advanced Ceramics 25%
• Battery Etc 25%
• Silver Target 25%
• Spectroscopic Techniques 25%
• Uniformly Distributed 25%
• Flat Substrate 25%

Material Science

• Laser Ablation 100%
• Film 100%
• Silver 100%
• Energy Density 50%
• Aluminum Oxide 50%
• Secondary Battery 50%
• Spectroscopy Technique 50%
• Laser Pulse 50%
• Photoemission Spectroscopy 50%
• Sintering 50%
• Inert Gas 50%
• Laser Deposition 50%
• Particulate System 50%
• Thin Films 50%