Supercritical CO₂-Assisted SiO_x/Carbon Multi-Layer Coating on Si Anode for Lithium-Ion Batteries

Engineering & Materials Science

• Lithium-ion batteries 100%
• Carbon films 96%
• Anodes 89%
• Glucose 70%
• Carbon 70%
• Coatings 69%
• Electrodes 47%
• Citric acid 46%
• Sugar (sucrose) 44%
• Solid electrolytes 43%
• Functional groups 40%
• Charge transfer 39%
• Surface tension 32%
• Mass transfer 27%
• Oxygen 25%
• Composite materials 17%
• Gases 17%
• Costs 11%

Physics & Astronomy

• electric batteries 95%
• lithium 82%
• anodes 79%
• coatings 62%
• carbon 61%
• ions 43%
• glucose 43%
• synthesis 26%
• citric acid 26%
• sucrose 23%
• electrodes 23%
• taps 22%
• solid electrolytes 22%
• integrity 19%
• diffusivity 17%
• mass transfer 16%
• interfacial tension 16%
• charge transfer 16%
• buffers 15%
• costs 14%
• cycles 12%
• conductivity 12%
• composite materials 11%
• oxygen 11%
• kinetics 11%
• electronics 9%
• gases 9%
• interactions 7%

Chemical Compounds

• Multilayer 82%
• Anode 68%
• Coating Agent 55%
• Carbon Atom 43%
• Glucose 22%
• Lithiation 17%
• Solid Electrolyte 15%
• Behavior as Electrode 15%
• Liquid Film 14%
• Environmental Friendliness 14%
• Citric Acid 14%
• Sucrose 14%
• Mass Transfer 12%
• Charge Transfer 10%
• Conductivity 10%
• Buffer Solution 10%
• Resistance 9%
• Volume 8%
• Composite Material 7%
• Application 4%