Influence of the structure of carbon onions on their electrochemical performance in supercapacitor electrodes

Physics & Astronomy

• electrochemical capacitors 100%
• carbon 49%
• electrodes 46%
• performance 32%
• electrolytes 14%
• soot 13%
• activated carbon 7%
• sulfuric acid 7%
• acetonitrile 7%
• supplements 6%
• energy storage 6%
• electric power 6%
• detonation 5%
• time constant 5%
• diamonds 4%
• physical properties 4%
• electrical properties 4%
• synthesis 4%
• molecular dynamics 4%
• conductivity 3%
• simulation 2%
• temperature 1%

Engineering & Materials Science

• Supercapacitor 87%
• Electrodes 57%
• Carbon 56%
• Electrolytes 16%
• Soot 12%
• Nanodiamonds 9%
• Acetonitrile 9%
• Specific surface area 7%
• Sulfuric acid 7%
• Carbon black 7%
• Activated carbon 6%
• Detonation 6%
• Molecular dynamics 6%
• Electric properties 6%
• Diamonds 5%
• Physical properties 5%
• Energy storage 5%
• Computer simulation 3%
• Temperature 2%

Chemical Compounds

• Behavior as Electrode 37%
• Carbon Atom 34%
• Soot 17%
• Nanodiamond 9%
• Detonation 9%
• Tetraethylammonium 8%
• Tetrabutylammonium 8%
• Carbon Black 7%
• Diamond 7%
• Sulfuric Acid 6%
• Energy Storage 6%
• Electrical Property 6%
• Specific Surface Area 5%
• Molecular Dynamics 5%
• Acetonitrile 5%
• Conductivity 4%
• Simulation 4%
• Time 2%
• Application 2%