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石墨粉的嵌锂性能及颗粒结构研究 被引量:7

Study on the lithium-stored properties and particle structures of graphite powder
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摘要 研究了若干种通过不同制备方法获得的石墨粉的电化学嵌锂性能 ,得到一种高比容量的锂离子蓄电池负极材料 ,组装成扣式电池以 0 .32mA·cm-2 充放电时 ,前 10次平均放电比容量可达 35 5mAh·g-1。对各种石墨粉做了XRD、SEM和BET比表面积等结构测试 ,讨论了石墨颗粒的结构与其嵌锂性能的关系 ,认为石墨化度高、微晶尺寸小、颗粒内有大量微裂缝且粒径分布合理的石墨粉具有更高的可逆嵌锂容量。 Graphite powder obtained from a graphite stick in different ways had larger lithium-stored capacity than original graphite powder for making the graphite electrode. Using LiCoO 2 as positive electrode, the best graphite powder exhibits average discharge capacity of 355 mAh·g -1 after 10 cycles at 0.32 mA·cm -2. The structure and morphology of graphite particles were also investigated by XRD, SEM, and BET. The results show that graphite powder with smaller interlayer (d 002) distance and crystallite size, a large amount of microscopic fissure structure in the particle and appropriate particle size, are favorable for large lithium-stored capacity.
作者 唐致远 翟玉梅 庄新国 桂枫
机构地区 天津大学化工学院
出处 《电源技术》 CAS CSCD 北大核心 2001年第1期29-31,39,共4页 Chinese Journal of Power Sources
基金 一碳国家重点实验室资助项目! (KF 970 0 5)
关键词 石墨粉 嵌锂性能 颗粒结构 负极材料 锂离子蓄电池 lithium-ion battery graphite powder lithium-stored properties particle structures
分类号 TM242 [一般工业技术—材料科学与工程] TM912.2 [电气工程—电力电子与电力传动]
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参考文献1

  • 1王曾辉,碳素材料,1991年,21页

同被引文献67

  • 1路密,尹鸽平,史鹏飞.锂离子电池负极石墨材料的修饰与改性[J].电池,2001,31(4):195-197. 被引量:26
  • 2LIU Xing-quan(刘兴泉),CHEN Zhao-yong(陈召勇),LI Shu-hua(李淑华),HE Ze-zhen(何泽珍),YU Zhu-long(于作龙).Preparation of LixMn2O4 spinels by in-situ redox precipitation hydrothermal synthesis process(原位氧化还原沉淀水热合成法制备LixMn2O4间晶石)[J].Chemical journal of chinese universities(高等学校化学学报),2002,23(2):179-181.
  • 3[9]Yong Yao-xia,Tetsuo Sakai,Wang Cong-xiao,Takuya Fujieda,Kuniaki Tatsumi,Koh Takahashi,Atsushi Mori, Masaki Yoshio.Defect Spinel Li8n/n+4Mn8/n+4O4 cathode materials for solid-state lithium-polymer batteries[J]. J. electrochem.soc., 2001,148(1): A112-A119.
  • 4[10]Akira Hasegawa,Kazunari yoshizawa. Total overlap population analysis for cyclic capacity of metal-substituted-spinel lithium manganate LiMn2O4 for positive electrode material of rechargeable lithium-ion battery[J]. J.electrochem. soc., 2001,148(7) :A701-A705.
  • 5[12]Yang-kook Sun, Kook Sun,Gyeong-Su Park,Yun-Sun Lee,Masaki Yoashio,Kee Suk Nahm. Structural changes(degradation) of oxysulfide LiAl0.24Mn1.76O3.98S0.02 spinel on high-temperature cycling[J].J. electrochem soc., 2001,148(9):A994-A998.
  • 6[13]XIA Xi(夏熙).The fifty years of chemical power sources in China(IV)-lithium batteries(中国化学电源50年(4)-锂电池(下))[J]. Battery bimonthly(电池), 2001,30(1):29-31.
  • 7[19]Matsuo Y,Kostechi R,Mclarnon F. Surface layer formation on thin-film LiMn2O4 electrodes at elevated temperatures[J]. J.electrochem.soc.,2001,148(7):A687-A692.
  • 8LIU Xing-quan(刘兴泉),CHEN Zhao-yong(陈召勇),HE Yi(贺益),LIU Pei-song(刘培松),LI Qing(李庆),YU Zuo-long(于作龙).Effects of different Mn sources on the electrochemical performances of Li1+xMn2-xO4 spinel cathode materials(不同Mn源对Li1+xMn2-xO4间晶石正极材料的电化学性能的影响)[J].Chinese of synthetic chemistry(合成化学),2001,9(3):218-222.
  • 9[24]SanKar Mandal,Amarilla J M,Ibanez J,Jose M R. The role of carbon black in LiMn2O4-based composites as cathodes for rechargeable lithium batteries[J]. J. electrochem. soc.,2001, 148(1): A24-A29.
  • 10[25]MacNeil D D,Hatchard T D,Dahn J RRR. A comparison between the high temperature electrode/electrolyte reactions of LixCoO2 and LixMn2O4[J]. J.electrochem.soc.,2001, 148(7):A663-A667.

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电源技术
2001年 第1期

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