Synthesis of LiFePO4/carbon/graphene for high-performance Li-ion battery

LiFePO4/carbon/graphene (LFP/C/G) composites were synthesized through a solvothermal method which used LFP/carbon with 15 % carbon content (LFP/C-15) as a precursor and changed graphene contents. LFP with 5 % graphene content (LFP/G-5) was synthesized by the same method. The effects of co-modification technology and graphene content on LFP/C/G performance were investigated. As the results, LFP/C/G compos-ites showed a significant improvement in electrochemical properties compared to LFP/C-15 and LFP/G-5. This is attributed to the superior electrical conductivity of graphene and the excellent conductive network formed by co-modification of graphene and carbon coating. Especially, when the graphene content of LFP/C/G is 15 %, the developed material provided the greatest initial discharge specific capacity at 186.2 mAh/g at 0.1C which exceeded the theoretical specific capacity of 170 mAh/g for LFP, and the extremely high capacity retention pro-portion of 95.2 % after 100 cycles at 0.1C. This finding is a promising technique for the improvement of LFP performance by co-modifying with graphene and carbon coating.

Automated summary

LiFePO4/carbon/graphene (LFP/C/G) composites were synthesized through a solvothermal method. The combination of graphene and carbon coating resulted in improved electrochemical properties of LFP/C/G composites compared to LFP/C-15 and LFP/G-5. Particularly, LFP/C/G with a graphene content of 15% exhibited the highest initial discharge specific capacity and a high capacity retention rate after cycling, proving the promising technique of co-modification with graphene and carbon coating for LFP improvement.