Green method for the synthesis of biobased carbon from miscanthus × giganteus for lithium-ion batteries

Keyphrases

• Lithium-ion Battery 100%
• Biomass Carbon 100%
• Green Method 100%
• Miscanthus × Giganteus 100%
• Mesoporous Carbon 100%
• Porous Structure 33%
• Graphite 33%
• High Cost 33%
• Calcination 33%
• Synthesis Methods 33%
• Specific Surface Area 33%
• Pyrolysis-activation 33%
• High Conductivity 33%
• High Specific Surface Area 33%
• High Capacity 33%
• Bioproducts 33%
• Discharge Capacity 33%
• Waste Cost 33%
• Energy Crops 33%
• High Reactivity 33%
• Sustainable Synthesis 33%
• Fast-growing 33%
• Rapid Ion Transport 33%
• Fast Ion Diffusion 33%
• Electrolyte Components 33%
• Chemical Waste 33%
• Approach-avoid 33%
• Chemical Activation 33%
• Nanostructured Carbon 33%
• Hydrochar 33%
• Commercial Graphite 33%
• Biomass Sources 33%
• Cycle Stability 33%
• Chemically Activated Carbon 33%
• Scalable Synthesis 33%
• Co-hydrothermal Carbonization (co-HTC) 33%

Chemistry

• Lithium Ion Battery 100%
• Miscanthus 100%
• Meso Porosity 100%
• specific surface area 66%
• Porosity 33%
• Pyrolysis 33%
• Activated Carbon 33%
• Carbon Material 33%
• Calcination 33%
• Hydrothermal Carbonization 33%
• Chemical Waste 33%
• Hydrochars 33%
• Biomass Feedstock 33%
• Chemical Activation 33%
• Energy Crop 33%

Material Science

• Lithium Ion Battery 100%
• Calcination 50%
• Activated Carbon 50%
• Hydrochar 50%