Effect of lithium or aluminum substitution on the characteristics of graphite for anode of lithium ion batteries
来源期刊:Rare Metals2003年第4期
论文作者:GUO Huajun, LI Xinhai, WANG Zhixing, PENG Wenjie, and GUO YongxingCollege of Metallurgical Science and Engineering, Central South University, Changsha , China
文章页码:280 - 284
摘 要:<正> Modification of graphite for anode of lithium ion batteries is investigated. Results of X-ray diffraction shows lithium and aluminum exists as Li compound (CH3COOLi-2H2O) and Al compound (AID3) in the graphite, respectiovely. The Brunauer-Emmer-Teller (BET) surface area of the modified graphite increases. According to the electrochemical measurements of Li/C cell and prototype Li-ion batteries, the Li-doped graphite has large reversible capacity of 312.2 mA·h/g, low irreversible capacity of 52.9 mA·h/g, and high initial coulombic efficiency of 85.51 %. The 063448 size proto-type battery with Li-doped graphite anode has large discharge capacity of 845 mA·h and good cycling performance. The initial charge/discharge characteristic of Al-doped graphite is close to those of undoped graphite, but the prototype battery with Al-doped anode shows the best cycling performance with capacity retention ratio of 94.06% at the 200th cycle.
GUO Huajun, LI Xinhai, WANG Zhixing, PENG Wenjie, and GUO YongxingCollege of Metallurgical Science and Engineering, Central South University, Changsha 410083, China
摘 要:<正> Modification of graphite for anode of lithium ion batteries is investigated. Results of X-ray diffraction shows lithium and aluminum exists as Li compound (CH3COOLi-2H2O) and Al compound (AID3) in the graphite, respectiovely. The Brunauer-Emmer-Teller (BET) surface area of the modified graphite increases. According to the electrochemical measurements of Li/C cell and prototype Li-ion batteries, the Li-doped graphite has large reversible capacity of 312.2 mA·h/g, low irreversible capacity of 52.9 mA·h/g, and high initial coulombic efficiency of 85.51 %. The 063448 size proto-type battery with Li-doped graphite anode has large discharge capacity of 845 mA·h and good cycling performance. The initial charge/discharge characteristic of Al-doped graphite is close to those of undoped graphite, but the prototype battery with Al-doped anode shows the best cycling performance with capacity retention ratio of 94.06% at the 200th cycle.
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