Control of Graphene Heteroatoms in a Microball Si@Graphene Composite Anode for High-Energy-Density Lithium-Ion Full Cells

Keyphrases

• Graphene 100%
• Si-N 100%
• Graphene Composites 100%
• High Energy Density 100%
• Heteroatom 100%
• Microball 100%
• Composite Anode 100%
• Lithium-ion Cell 100%
• Lithium-ion Battery 40%
• Excellent Performance 20%
• Nitrogen Source 20%
• Facile Approach 20%
• Discharge Capacity 20%
• Cost-effective Approach 20%
• NiMn 20%
• High Stability 20%
• Delithiation 20%
• Lithiation 20%
• High Capacity 20%
• Electrochemically Exfoliated Graphene 20%
• Silica Nanoparticles (SiNPs) 20%
• Electric Conductivity 20%
• Nitrogen-doped Graphene 20%
• Scalable Approaches 20%
• N Content 20%
• High Coulombic Efficiency 20%
• Full Cell 20%
• Ion Mobility 20%
• Coulombic Efficiency 20%
• Initial Discharge Capacity 20%
• High Initial Capacity 20%
• Si-doped Graphene 20%
• N-graphene 20%
• Anode Performance 20%

Material Science

• Graphene 100%
• Anode 100%
• Lithium Ion 100%
• Composite Material 100%
• High Energy Density 100%
• Lithium Ion Battery 40%
• Electrical Conductivity 20%
• Nitrogen-Doped Graphene 20%

Chemical Engineering

• Graphene 100%