Abstract
AbstractWe report the synthesis of a high‐performance graphitic carbon‐coated silicon (Si@GC) composite material for lithium‐ion batteries via a scalable production route. Porous Si is produced from the magnesiothermic reduction of commercial silica (SiO2) precursor followed by low‐temperature graphitic carbon coating using glucose as the precursor. The obtained Si@GC composite achieves an excellent reversible specific capacity of 1195 mAh g−1 and outstanding cycle stability. The thick Si@GC anode (3.4 mg cm−2) in full cells with commercial lithium iron phosphate cathode delivers a remarkable performance of 800 mAh g−1 specific capacity and 2.7 mAh cm−2 areal capacity as well as 93.6% capacity retention after 200 cycles.
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