Add to ORKGSilicon is one of the most promising anode material for lithium ion batteries in the future, since it has largest theoretical capacity. However, the capacity fading which results from volume expansion and unstable SEI prevent it from industrial application. In this thesis, we used high energy ball milling method to get Si nanoparticles efficiently with low cost to enhance their capacity. These Si nanoparticles were also composited with graphite to increase their capacity but not influence their cycling performance. In order to deal with their volume expansion, a carbon structure based on crosslinked polymer is designed. It proves that this carbon structure can largely improve their capacity and cycling performance. After 100 cycles, it can ...
Existing anode technologies are approaching their limits, and silicon is recognized as a potential a...
A high performance lithium anode is a key component for high energy density lithium batteries. Silic...
Silicon as the potential anode material for lithium-ion batteries suffers from huge volume change (u...
Silicon as the potential anode material for lithium-ion batteries suffers from huge volume change (u...
Silicon, as a promising next-generation anode material, has drawn special attention from industries ...
The application of lithium-ion (Li-ion) secondary batteries in electrical and hybrid electrical cars...
Silicon-based anodes are extensively studied as an alternative to graphite for lithium ion batteries...
Silicon-based anodes are extensively studied as an alternative to graphite for lithium ion batteries...
Si is a promising anode candidate of lithium ion batteries with exceptionally high theoretical capac...
Silicon-based anodes are extensively studied as an alternative to graphite for lithium ion batteries...
Silicon is a promising anode material in high energy density application of lithium ion batteries be...
In this study, silicon-graphite composites were prepared and investigated as anode materials for Li-...
A high performance lithium anode is a key component for high energy density lithium batteries. Silic...
Si/C nanocomposite was successfully prepared by a scalable approach through high-energy mechanical m...
Si/C nanocomposite was successfully prepared by a scalable approach through high-energy mechanical m...
Existing anode technologies are approaching their limits, and silicon is recognized as a potential a...
A high performance lithium anode is a key component for high energy density lithium batteries. Silic...
Silicon as the potential anode material for lithium-ion batteries suffers from huge volume change (u...
Silicon as the potential anode material for lithium-ion batteries suffers from huge volume change (u...
Silicon, as a promising next-generation anode material, has drawn special attention from industries ...
The application of lithium-ion (Li-ion) secondary batteries in electrical and hybrid electrical cars...
Silicon-based anodes are extensively studied as an alternative to graphite for lithium ion batteries...
Silicon-based anodes are extensively studied as an alternative to graphite for lithium ion batteries...
Si is a promising anode candidate of lithium ion batteries with exceptionally high theoretical capac...
Silicon-based anodes are extensively studied as an alternative to graphite for lithium ion batteries...
Silicon is a promising anode material in high energy density application of lithium ion batteries be...
In this study, silicon-graphite composites were prepared and investigated as anode materials for Li-...
A high performance lithium anode is a key component for high energy density lithium batteries. Silic...
Si/C nanocomposite was successfully prepared by a scalable approach through high-energy mechanical m...
Si/C nanocomposite was successfully prepared by a scalable approach through high-energy mechanical m...
Existing anode technologies are approaching their limits, and silicon is recognized as a potential a...
A high performance lithium anode is a key component for high energy density lithium batteries. Silic...
Silicon as the potential anode material for lithium-ion batteries suffers from huge volume change (u...