磷酸铁锂基锂离子电池由于具有高的安全性能和优异的循环性能是新能源领域的研究热点.而磷酸铁锂材料本身导电性差,在实体电池制作过程中容易出现内阻较大和倍率性能不佳等问题,因此需要研究导电添加剂组成对电池性能的影响.本文用商业化的LiFePO4、石墨和电解液为主要原料,以碳纳米管(CNT)和导电碳黑(Super P)为导电添加剂,制作了20 Ah容量兼倍率型的磷酸铁锂软包电池.扫描电镜(SEM)分析测试表明导电碳黑Super P和CNT分散均匀,可与磷酸铁锂颗粒形成点和线的接触,进而可以提供更多的附加导电通路.应用该复合导电添加剂所制作的磷酸铁锂动力电池具有1.0 mΩ内阻,电池首次效率在91%以上,正极材料克容量0.5C发挥到146.32 mAh.g-1,9C/1C接近100%,倍率性能优异,电芯经过2165周循环电池容量保持率为91.78%,循环性能优秀;而使用常规导电碳SP+ KS-6的分容比容量是139.06 mAh·g-,电池内阻均值为3.25 mΩ,电芯经过2003次循环,容量保持率为87.63%.经过优化实验条件,正极中添加3%SP+ 1% KS-6+ 1%CNT复合导电剂的电芯整体性能最佳.
参考文献
| [1] | Padhi AK.;Goodenough JB.;Nanjundaswamy KS. .PHOSPHO-OLIVINES AS POSITIVE-ELECTRODE MATERIALS FOR RECHARGEABLE LITHIUM BATTERIES[J].Journal of the Electrochemical Society,1997(4):1188-1194. |
| [2] | Takahashi M.;Tobishima S.;Takei K.;Sakurai Y. .Reaction behavior of LiFePO4 as a cathode material for rechargeable lithium batteries[J].Solid state ionics,2002(3/4):283-289. |
| [3] | 王文琴,郭志猛,姜冰,叶青,刘金坤,贾磊.碳热还原法制备LiFePO4/C锂电池正极材料的研究[J].稀有金属,2012(04):578-583. |
| [4] | Yancheng Zhang;Chao-Yang Wang;Xidong Tang .Cycling degradation of an automotive LiFePO_4 lithium-ion battery[J].Journal of Power Sources,2011(3):1513-1520. |
| [5] | LIN Ying,ZENG Baozhi,LIN Yingbin,LI Xiaowei,ZHAO Guiying,ZHOU Ting,LAI Heng,HUANG Zhigao.Electrochemical properties of carbon-coated LiFePO4 and LiFe0.98Mn0.02PO4 cathode materials synthesized by solid-state reaction[J].稀有金属(英文版),2012(02):145-149. |
| [6] | Conductive additive content balance in Li-ion battery cathodes: Commercial carbon blacks vs. in situ carbon from LiFePO_4/C composites[J].Journal of Power Sources,2010(22):7661-7668. |
| [7] | Mária Filkusová,Andrea Fedorková,Renáta Ori(n)áková,Andrej Ori(n)ák,Zuzana Nováková,Lenka (S)kantárová.多壁纳米碳管对磷酸铁锂正极材料热稳定性及表面形貌的影响[J].新型炭材料,2013(01):1-7. |
| [8] | Jin-Ming Chen;Chia-Haw Hsu;Yu-Run Lin;Mei-Hui Hsiao;George Ting-Kuo Fey .High-power Lifepo_4 Cathode Materials With A Continuous Nano Carbon Network For Lithium-ion Batteries[J].Journal of Power Sources,2008(2):498-502. |
| [9] | Delacourt C;Wurm C;Laffont L;Leriche JB;Masquelier C .Electrochemical and electrical properties of Nb- and/or C-containing LiFePO4 composites[J].Solid state ionics,2006(3/4):333-341. |
| [10] | Indrajeet V. Thorat;Vipul Mathur;John N. Harb .Performance of carbon-fiber-containing LiFePO_4 cathodes for high-power applications[J].Journal of Power Sources,2006(1):673-678. |
| [11] | Li, XL;Kang, FY;Bai, XD;Shen, W .A novel network composite cathode of LiFePO4/multiwalled carbon nanotubes with high rate capability for lithium ion batteries[J].Electrochemistry communications,2007(4):663-666. |
| [12] | M.S. Bhuvaneswari;N.N. Bramnik;D. Ensling;H. Ehrenberg;W. Jaegermann .Synthesis and characterization of Carbon Nano Fiber/LiFePO_4 composites for Li-ion batteries[J].Journal of Power Sources,2008(1):553-560. |
| [13] | Xian-Ming Liu;Zhen dong Huang;Sei woon Oh;Biao Zhang;Peng-Cheng Ma;Matthew M.F. Yuen;Jang-Kyo Kirn .Carbon nanotube (CNT)-based composites as electrode material for rechargeable Li-ion batteries: A review[J].Composites science and technology,2012(2):121-144. |
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