Spark-Discharge as a Nanoparticle Source to Study Size-Dependent Plasmonic Properties for Photo-electrochemical Water Splitting

INIS

• electrochemistry 100%
• nanoparticles 100%
• water 100%
• size 100%
• semiconductor materials 39%
• absorption 21%
• electron beam injection 17%
• interfaces 13%
• excitation 13%
• configuration 13%
• control 8%
• surfaces 8%
• electrolytes 8%
• energy 8%
• efficiency 8%
• particles 8%
• alloys 8%
• aerosols 8%
• liquids 8%
• performance 8%
• electrons 4%
• wavelengths 4%
• range 4%
• electron holes 4%
• layers 4%
• comparative evaluations 4%
• shape 4%
• charge carriers 4%
• solar energy 4%
• capture 4%
• illumination 4%
• heat dissipation 4%
• thin films 4%
• reviews 4%
• photoanodes 4%
• energy gap 4%
• solids 4%
• charges 4%

Engineering

• Plasmonics 100%
• Nanoparticle 100%
• Semiconductor 38%
• Electron Injection 19%
• Mechanisms 9%
• Enhancement 9%
• Aerosol 9%
• Injection Efficiency 9%
• Electrolyte Interface 9%
• Energy Electron 4%
• Composite 4%
• Heat Losses 4%
• Incoming Light 4%
• Solar Energy 4%
• Metallic Nanoparticles 4%
• Back Contact 4%
• Induced Surface 4%
• Electron Energy 4%
• Drives 4%
• Band Gap Energy 4%
• Alloying 4%
• Electrospray 4%
• Long Wavelength 4%
• Energy Engineering 4%

Material Science

• Photoelectrochemical Water Splitting 100%
• Semiconductor Material 38%
• Liquid 9%
• Electrolyte 9%
• Aerosol 9%
• Particle 9%
• Semiconductor Nanoparticles 4%
• Photoelectrocatalysis 4%
• Composite Material 4%
• Charge Carrier 4%
• Alloying 4%
• Surface Charge 4%
• Electrospray 4%
• Surface 4%