Facile and scalable preparation of 3D SnO₂/holey graphene composite frameworks for stable lithium storage at a high mass loading level

Keyphrases

• 3D Network Structure 40%
• Areal Capacity 40%
• Binder-free 20%
• Current Density 20%
• Electrode Materials 40%
• Electronic Conduction 20%
• Facile Preparation 100%
• Full Potential 20%
• Graphene Composites 100%
• Graphene Frameworks 20%
• Graphene Network 20%
• Gravimetric Capacity 20%
• Hierarchical Porous Structure 20%
• High Mass Loading 100%
• Ion Transport 20%
• Lithium Storage 100%
• Lithium-ion Battery 20%
• Loading Level 100%
• Low-mass 20%
• Mass Effect 20%
• N-doped Graphene 100%
• Nanostructured SnO2 20%
• Practical Effects 20%
• Rate Performance 20%
• Scalable Methods 20%
• Scalable Preparation 100%
• SnO2 100%
• SnO2 Electrode 40%

Material Science

• Density 20%
• Graphene 40%
• Graphene Oxide 20%
• Holey Graphene 100%
• Lithium 100%
• Lithium Ion Battery 20%