Advanced multiphase silicon-based anodes for high-energy-density Li-ion batteries

Physics & Astronomy

• electric batteries 95%
• anodes 79%
• flux density 74%
• cycles 62%
• silicon 50%
• composite materials 48%
• ions 43%
• nickel 32%
• carbon nanotubes 22%
• cells 14%
• mass spectroscopy 12%
• lithium 11%
• boron 11%
• routes 11%
• energy dissipation 10%
• electron energy 9%
• degradation 9%
• preparation 9%
• nanoparticles 8%
• carbon 8%
• transmission electron microscopy 8%
• scanning electron microscopy 8%
• spectroscopy 6%

Engineering & Materials Science

• Lithium-ion batteries 100%
• Anodes 89%
• Silicon 73%
• Composite materials 53%
• Nickel 43%
• Carbon nanotubes 32%
• Electron energy loss spectroscopy 27%
• Amorphous carbon 23%
• Boron 17%
• Spectroscopy 17%
• Transmission electron microscopy 15%
• Nanoparticles 15%
• Ions 14%
• Powders 12%
• Scanning electron microscopy 12%
• Degradation 10%

Chemistry

• Anode 68%
• Composite Material 46%
• Time of Flight Secondary Ion Mass Spectroscopy 28%
• Carbon Nanotube 27%
• Electron Energy Loss Spectroscopy 22%
• Composite Particle 22%
• Degradation Rate 18%
• Boron Atom 16%
• Amorphous Material 12%
• Transmission Electron Microscopy 12%
• Scanning Electron Microscopy 11%
• Nanoparticle 9%
• Carbon Atom 8%