关键词: 石油焦, 锂离子电池, 负极材料, 电化学性能, 石墨化程度, 首次库伦效率, 比容量

Abstract:

The quality of anode material is the key factor determining the performance of lithium-ion batteries. Artificial graphite is an important anode material for lithium-ion batteries. Petroleum coke has low thermal expansion coefficient, low porosity, low impurity content, high conductivity and easy graphitization. This study selects three types of common petroleum coke, and prepares artificial graphite by graphitization. Analyze and characterize three types of original petroleum coke samples and three types of graphitized samples, study the changes of petroleum coke after graphitization, and verify whether the performance of petroleum coke after graphitization reaches the level of commercial lithium battery anode materials through electrochemical analysis. The experimental results show that after graphitization treatment at 2,750 ℃, compared with the original petroleum coke sample, the graphitized samples rearrange their structures and have a more obvious regular layered structure; the carbon content increases, and the content of other miscellaneous elements such as H and O and metal elements decreases; all show lower electrode potential and stable charge-discharge platform, with the initial coulombic efficiency of 85.00%, 78.20% and 82.96%, respectively. After 150 cycles, the mass specific capacities are maintained at 273.00, 259.00 and 226.20 mAh/g, respectively, and the coulombic efficiency is close to 100%, which is a potential precursor of lithium-ion battery anode materials.

Key words: petroleum coke, lithium-ion battery, anode material, electrochemical performance, degree of graphitization, initial coulombic efficiency(ICE), specific capacity;