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溶胶-凝胶法所制LiCoPO_4及其掺碳材料的电化学性能 被引量:5

Preparation of Materials LiCoPO_4 and Electrochemical Properties of Material Doping with Carbon
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摘要 采用溶胶-凝胶法制备了LiCoPO4,并对LiCoPO4进行了掺碳改性研究。实验结果表明:n(Li)∶n(Co)=1.5∶16,50℃下煅烧8 h所得样品性能最佳。在0.1C倍率下,样品的首次充电比容量为135.17 mAh.g-1,首次放电比容量是113.9 mAh.g-1,其电化学性能较好。合成掺碳15%的LiCoPO4/C复合材料,在0.1C条件下放电比容量达到121.2 mAh.g-1,相比纯相LiCoPO4 113.9 mAh.g-1有很大提高。在1C倍率下复合材料的放电比容量是103.5 mAh.g-1,相比纯相85.4 mAh.g-1提高很多,20次循环后复合材料还保持有62.3 mAh.g-1的放电比容量。碳掺杂不仅提高了材料的电导率,还提高了材料的电化学性能。 The paper introduced that LiCoPO4 was produced by sol-gel method and the modification of doping Carbon.The results show that the molar ratio of n(Li):n(Co) was 1.5:1,roasted at 650 ℃ for 8 h,under 0.1C rate,the first charge capacity is 135.17 mAh·g^-1,and the first discharge capacity of the cathode is 113.9 mAh·g^-1.The composite materials LiCoPO4/C of doping with nonmetal(carbon 15%) was synthesized by sol-gel method,Under 0.1C,the discharge of LiCoPO4/C up to 121.2 mAh·g^-1,and the pure LiCoPO4 first discharge is 113.9 mAh·g^-1;Under 1C rate,discharge capacity is 103.5 mAh·g^-1,the pure LiCoPO4 first discharge is 85.4 mAh·g^-1.the charge-discharge properties has greatly improved,After charged/discharged at 0.1C rate for 20 cycles,the discharge capacity was 62.3 mAh·g^-1.The results show that carbon can improve the conductivity of the material,thereby enhancing the electrochemical properties of the material.
作者 刘晓红 邹美捷 许春晓 柯春兰
机构地区 南昌大学环境与化学工程学院
出处 《南昌大学学报(工科版)》 CAS 2011年第1期12-16,共5页 Journal of Nanchang University(Engineering & Technology)
关键词 LiCoPO4 锂离子电池 溶胶-凝胶法 复合材料 制备 LiCoPO4 lithium ion battery sol-gel method composite materials preparation
分类号 TM911 [电气工程—电力电子与电力传动]
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参考文献11

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  • 8Zhao, Yujuan, Wang, Suijun, Zhao, Chunsong, Xia, Dingguo.Synthesis and electrochemical performance of LiCoPO_4 micron-rods by dispersant-aided hydrothermal method for lithium ion batteries[J].Rare Metals,2009,28(2):117-121. 被引量:11
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二级参考文献6

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共引文献54

同被引文献39

  • 1Zhao, Yujuan, Wang, Suijun, Zhao, Chunsong, Xia, Dingguo.Synthesis and electrochemical performance of LiCoPO_4 micron-rods by dispersant-aided hydrothermal method for lithium ion batteries[J].Rare Metals,2009,28(2):117-121. 被引量:11
  • 2栗欢欢,杨晓亮,靳佳,等.锌离子掺杂对锂离子电池正极材料LiCoPO.性能的影响[c]∥中国化学会第26届学术年会新能源与能源化学分会场论文集,2008.
  • 3WOLFENSTINE J, LEE U, POESE B, et al. Effect of oxy- gen partial pressure on the discharge capacity of LiCoPO4 [ J ]. Power Sources, 2005,144 ( 1 ) : 226 - 230.
  • 4BRAMNIK N N, BRAMNIK K G, BUHRMESTER T, et al. Electrochemical and structural study of LiCoPO4-based electrodes [ J ]. J Solid State Electrochem, 2004,8 : 558 - 564.
  • 5LI H H,JIN J,WEI J P,et al. Fast synthesis of core-shell LiCoPO4/C nanocomposite viamicrowave heating and its electrochemical Li intercalation performances[ J ]. Electro- chemistry Communications ,2009,11:95 - 98.
  • 6GANGULIBABU D, BHUVANESWARI N, KALAISELVI N,et al. CAM sol-gel synthesized LiMPQ (M = Co, Ni) cathodes for rechargeable lithium batteries [ J ]. J Sol-Gel Sci Techno1,2009,49 : 137 - 144.
  • 7杨晓亮,卞锡奎,周震,等.LiMPO.(M=Co,Fe)的制备和电化学性能研究[C]//第27届全国化学与物理电源学术年会论文集.东莞,2006.
  • 8Wolfenstine J,Alien J.Ni3 +/Ni2 + redox potential in LiNiPO4[J].J Power Sources,2005,142(1-2):389-390.
  • 9Padhi A K,Nanjundaswamy K,Goodenough J B.Phospho-olivines as positive electrode materials for rechargeable lithium batteries[J].J Electrochem Soc,1997,144(4):1 188-1 194.
  • 10Amine K,Yasuda H,Yamachi M.Olivine LiCoPO4 as 4.8 V electrode material for lithium batteries[J].Electrochem Solid-State Lett,2000,3(4):178-179.

引证文献5

二级引证文献6

南昌大学学报(工科版)
2011年 第1期

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