Abstract

There is a great deal of demand for rechargeable Li-ion batteries due to their high energy and power density compared to other rechargeable batteries. Despite the concern about limited lithium resources, scientists have re-examined sodium-ion batteries, since sodium is below lithium on the periodic table, and the two metals have many similar properties. As a result of its low cost, good cycle life, and reversible capacity, hard carbon (HC) is considered to be the most attractive negative electrode material for sodium-ion batteries. Nevertheless, the practical application of HC remains challenging due to its low capacity and initial Coulombic efficiency (ICE). We investigated how pre-treatment conditions affected the graphitization degree in order to overcome these issues. In addition, we observed a strong correlation between pre-oxidation and electrochemical performance when the carbonization temperature was increased. The observed results will be presented during the presentation. Acknowledgments This work was funded by the Ministry of Education and Science of the Republic of Kazakhstan Grant (AP09259165) and by Nazarbayev University under Collaborative Research Program Grant № 20122022P1611, AK.

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