Enhanced Sorption Cycle Stability and Kinetics of CO2 on Lithium Silicates Using the Lithium Ion Channeling Effect of TiO2 Nanotubes

Material Science

• Lithium 100%
• Nanotubes 100%
• Lithium Ion 100%
• Silicate 100%
• Titanium Dioxide 100%
• Adsorption Kinetics 20%
• Adsorbent 20%
• Sorbent 20%

Engineering

• Nanotubes 100%
• Channelling 100%
• Adsorption Capacity 20%
• Elevated Temperature 20%
• Material Cost 20%
• Theoretical Value 20%
• Adsorption 20%
• Fumed Silica 20%

Keyphrases

• Li4SiO4 100%
• Lithium Silicate 100%
• Cyclic Studies 25%
• Nanotube Composites 25%
• High-temperature CO2 Sorbent 25%