采用电化学工作站测试了1 mol/L LiODFB (LiPF6) EC+DMC+EMC(1∶1∶1质量比)电解液的热稳定性及其对铝箔集流体的腐蚀性,测试了LTO/Li电池的CV曲线及EIS图谱,并采用电池性能测试系统测试电池的倍率性能和循环性能,探索LiODFB电解液与LiFePO4/LTO电极的相容性.结果表明:在室温和60℃条件下,LiODFB电解液及其对铝箔的稳定性均优于LiPF6电解液,以LiODFB和LiPF6为电解液的LTO/Li电池的CV曲线都具有单一的氧化还原峰,且其首次充放曲线均具有稳定的充放电平台,室温时以LiFePO4/LTO为电极的LiODFB电池和LiPF6电池在0.5C和1C倍率的电池性能相差不大;室温和60℃时LiODFB电池的循环性能均优于LiPF6电池,60℃时尤为显著.
参考文献
| [1] | Zhang S S.An unique lithium salt for the improved electrolyte of Li-ion battery.Electrochemistry Communications,2006,8(9):1423-1428. |
| [2] | GAO Hong-quan,ZHANG Zhi-an,LAI Yan-qing.Structure characterization and electrochemical properties of new lithium salt LiODFB for electrolyte of lithium ion batteries.J.Cent.South Univ.Technol.,2008,15(23):830-834. |
| [3] | 邓凌峰,陈洪.锂离子电池电解质LiBC2O4F2的合成与电化学性能.电源技术,2010,34(3):237-240. |
| [4] | Zhang S S.Electrochemical study of the formation of a solid electrolyte interface on graphite in a LiBC2O4F2-based electrolyte.Journal of Power Sources,2007,163(7):713-718. |
| [5] | 付茂华.磷酸铁锂电池用高低温电解液的研究.长沙:中南大学硕士论文,2010. |
| [6] | FU M H,HUANG K L,LIU S Q,et al.Lithium difluoro(oxalato) borate/ethylene carbonate + propylene carbonate + ethyl (methyl) carbonate electrolyte for LiMn2O4 cathode.Journal of Power Sources,2010,195(11):862-866. |
| [7] | Zhang S S,Xu K,Jow T R.Understanding formation of solid electrolyte interface film on LiMn2O4 electrode.Journal of the Electrochemical Society,2002,149(12):1521-1526. |
| [8] | Liu J,Chen Z H,Sara B,et al.Lithium difluoro(oxalato)borate as a functional additive for lithium-ion batteries.Electrochemistry Communications,2007,9(3):475-479. |
| [9] | Ohzuku T,Ueda A,Yamamoto N.Zero-strain insertion material of Li[Li1/3Ti5/3]O4 for rechargeable lithium cells.J.Electrochem Soc.,1995,142(5):1431-1435. |
| [10] | Kanamura K,Umegak T,Naito H,et al.Structural and electrochemical characteristics of Li4/3Ti5/3O4 as an anode material for rechargeable lithium batteries.Journal of Applied Electrochemistry,2001,31(14):73-78. |
| [11] | CHENG Liang,LIU Hai-jing,ZHANG Jing-jun.Nanosized Li4Ti5O12 prepared by molten salt method as an electrode material for hybrid electrochemical super capacitors.Journal of The Electrochemical Society,2006,153(8):A1472-A1477. |
| [12] | HUANG S H,WEN Z Y,ZHU X J.Preparation and electrochemical performance of Ag doped Li4Ti5O12.Electrochemistry Communications,2004,6(11):1093-1097. |
| [13] | Young Ho Rho,Kiyoshi Kanamura,Minori Fujisaki,et al.Preparation of Li4Ti5O12 and LiCoO2 thin film electrodes from precursors obtained by Sol-Gel method.Solid State Ionics,2002,151(22):151-157. |
| [14] | Jiang C H,Ichihara M,Honma I,et al.Effect of particle dispersion on high rate performance of nano-sized Li4Ti5O12 anode.Electrochimica Acta,2007,52(12):6470-6475. |
| [15] | Nakahara K,Nakajima R,Matsushima T,et al.Preparation of particulate Li4Ti5O12 having excellent characteristics as an electrode active material for power storage cells.J.Power Sources,2003,117(23):131-136. |
| [16] | 李凡群.LiODFB基电解液及其与LiFePO4-AC/AG-AC超级电容电池电极材料的相容性研究.长沙:中南大学硕士论文,2009. |
| [17] | 付茂华,黄可龙,刘素琴,等(Fu Mao-Hua,et al).二氟二草酸硼酸锂对LiFePO4/石墨电池高温性能的影响.物理化学学报(Acta Phys.Chim.Sinica),2009,25(10):1985-1990. |
| [18] | LI J,XIE K X,LAI Y Q,et al.Lithium oxalyldifluoroborate/carbonate electrolytes for LiFePO4/artificial graphite lithium-ion cells.Journal of Power Source,2010,195(16):5344-5350. |
| [19] | 陈凤凤.锂离子电池中新型电解质的合成与表征.南京:南京师范大学硕士论文,2010. |
| [20] | 郑洪河.锂离子电池电解质.北京:化学工业出版社,2007:26-29. |
| [21] | HUI Yang,GUO Rong,Philip N,et al.Thermal stability of LiPF6 salt and Li-ion battery electrolytes containing LiPF6.Journal of Power Sources,2006,161(15):573-579. |
| [22] | Ohzuku T,Ueda A,Yamamot N,et al.Factor affecting the capacity retention of lithium-ion cells.Solid State Ionics,1994,69(24):201-211. |
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