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Silicon anode with extremely high theoretical specific capacity (≈4200 mAh g−1), experiences huge volume changes during Li‐ion insertion and extraction, causing mechanical fracture of Si particles and the growth of a solid–electrolyte interface (SEI), which results in a rapid capacity fading of Si electrodes. Herein, a mechanically reinforced localized structure is designed for carbon‐coated Si nanoparticles...
In article number 2002094, Yuxin Tang, Yuekun Lai, Xiaodong Chen, and co‐workers report a mechanically reinforced localized structure with ultralong titania nanotubes to alleviate the mechanical strain and stabilize the solid–electrolyte interface layer for silicon‐based anode materials, delivering low electrode thickness swelling and excellent cycling performance.
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