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共沉淀法合成磷酸亚铁锂正极材料及性能研究 被引量:5

Synthesis of cathode material-LiFePO_4 by co-precipitation method and performances study
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摘要 采用共沉淀法合成了橄榄石型磷酸亚铁锂正极材料。利用X射线衍射,扫描电子显微镜,振实密度测定以及电化学测试等方法对该材料进行了结构表征和性能测试。结果表明:在较宽的温度范围内,都能形成单一的橄榄石型晶体结构,并具有较高的振实密度。其中,在650℃下合成的产物结构完整,表面形貌较好,粒径分布均匀,振实密度高达1.67 g/cm3。在室温及0.05 C倍率下,该材料的首次放电容量为133.6 mA.h/g,循环20次后,未见明显衰减。 Olivine - type LiFePO4 cathode material was successfully synthesized by co - precipitation method. The crystal structure and the electrochemical performances were characterized and tested by XRD, SEM, tapped density and electrochemical testing methods etc.. The results showed that the single olivine - type crystal structure can be formed at a wide temperature range and the prepared LiFePO4 had relatively high tapped density. If the material was sintered at 650 ℃, the synthetic product had a complete olivine structure, uniform surface topography and better particle - size distribution. Its tapped density reached as high as 1.67 g/cm^3. The initial discharge capacity was 133.6 mA · h/g under the room temperature and 0.05 C charge - discharge rate. Furthermore, after 20 cycles, there was no obvious capacity fade.
作者 韩恩山 魏子海 刘媛 康红欣 冯智辉
机构地区 河北工业大学化工学院应用化学系
出处 《无机盐工业》 CAS 北大核心 2007年第7期20-22,共3页 Inorganic Chemicals Industry
关键词 锂离子电池 磷酸亚铁锂 共沉淀法 焙烧温度 Li - ion battery LiFePO4 co - precipitation method sintered temperature
分类号 TQ131.11 [化学工程—无机化工]
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参考文献2

  • 1雷敏,应皆荣,姜长印,万春荣.高密度球形LiFePO_4的合成及性能[J].电源技术,2006,30(1):11-13. 被引量:45
  • 2Chen Zhaohui,Dahn J R.Reducing carbon in LiFePO4/C composite electrodes to maximize specific energy volumetric energy and tap density[J].Journal of Electrochem Soc.,2002,149 (9):1184 -1189.

二级参考文献7

  • 1ELVIRA M B, CARLO B, MAI,JRO P, et al. Versatile synthesis of carbon-rich LiFePO^4 enhancing its electrochemical properties [J].Electrochemical and Solid-State Letters, 2004, 7(4): A85-A87.
  • 2CROCE F, EPIFANIO A D. A novel concept for the synthesis of an improved LiFePO4 lithium battery cathode [J]. Electrochemical and Solid-State Letters, 2002, 5(3):A47-A50.
  • 3CHUNG S Y, BLOK1NG J T, CHIANG Y M. Electronically conductive phospho-olivines as lithium storage electrodes[J]. Nature Materials, 2002, 1 : 123-128.
  • 4ARNOLD G, GARCHE J, HEMMER R, et al. Fine-particle lithium iron phosphate LiFePO4 synthesized by a new low-cost aqueous precipitation technique [J]. Journal of Power Sources, 2003, 121:247-251.
  • 5BARKER J, SAIDI M Y, SWOYER J L. Lithium iron( Ⅱ ) phospho-olivines prepared by a novel earbothermal reduction method[J].Electrochemical and Solid-State Letters, 2003, 6(3):A53-A55,.
  • 6CHEN Zh H, DAHN J R. Reducing carbon in LiFePO4/C composite electrodes to maximize specific energy, volumetric energy, and tapdensity[J], J Electroehem Soc, 2002, 149(9): A1184-A1189.
  • 7HERLE P S, ELLIS B, COOMBS N, et al. Nano-network electronic conduction in iron and nickel olivine phosphates[J]. Nature Materials, 2004, 3(3):147-152.

共引文献44

同被引文献58

引证文献5

二级引证文献15

无机盐工业
2007年 第7期

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