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第2期 张勇等:LFPO4CNT复合材料的制备及电化学性能 ·209· (2]LiFX.Qiu W H.HuH Y,etal Electrochem icalperfomance of 2.4 ▲2% LFePO4 synthesized by m icrowave processing as lithim battery d1% 03% cathodes J Univ Sci Technol Beijing 2005,27 (1):86 1.2 04% 李发喜,仇卫华,胡环宇,等.微波合成锂离子电池正极复 5% V0% 合材料LfP0,C电化学性能.北京科技大学学报,2005.27 (1):86) -1.2 [3]He Y S Liao X Z MaZ F,et al Synthesis and electmochen ical pmoperties of LFePO cmmposite cathode materials Rare Met Mater Eng.2007,36(9:1644 3.41 3.423.433.44 3.45 何雨石,廖小珍,马紫锋,等.LFPO4心复合正极材料的 电位N(LiLi) 制备及其电化学性能研究.稀有金属材料与工程,2007.36 (9):1644) 图9不同CNT质量分数的LFePO.NT样品的线性极化曲线 [4]Wu S H,Chen M S.Chien C I et al Preparation and character Fig 9 Linear polarization curves of LFePO4 ANT samples with ization of Ti'doped LFePO.cathode materials for lithim ion different contents of CNT batteries J Power Sources 2009.189 (1):440 [5]W ang L Liang G C.Ou X Q,et al Effect of synthesis tmpera 3结论 tue on the pmoperties ofLFeP composites prepared by cabo themal reduction J Powver Soures 2009,189(1):423 (1)利用溶胶凝胶微波法制备了LFPO4CNT [6]Fey G T K.Chen Y G.Kao H M.Elctmchen ical properties of LFePO4 prepared via ballm illing J Power Soures 2009,189 复合材料,该材料主要为橄榄石型结构,平均粒径为 (1):169 57~100m,并确定了最佳微波时间为18mm [7]Chung H T,Jang S K.Ryu H W,et al Effects of nano catbon (2)适量掺入CNT后,可改善LfPO,CNT材 webs on the electrochen ical pmperties in LFePO canposite 料的可逆性,提高该材料的活性物质利用率和循环 Solil Sta te Cammun,2004,131(8):549 稳定性能 [8]Jin B.Jin E M.Park K H,et al Electrochen ical pmoperties of LFePO4 multiwalled cabon nanotubes camposite cathode maleri (3)CNT质量分数为01%、2%、3%、4%和 als for lithim pohymer battery:Electrochen Commun.2008,10 5%的样品,其首次放电比容量分别为106、131、 (10):1537 142127、120和109mArg.CNT质量分数为2% [9]Luo S Tang Z Lu I et al Electrochemn ical pmoperties of cadbon 的样品放电比容量最大,01C第10次循环的放电 m ixed LFePO cathode material synthesized by the cerm ic granu lation method Ceram Int 2008.34(5):1349 比容量为136mArg,容量保持率高达958%;但 [10]Wang L Huang Y.Jiang R.et al Prepamtion and characteriza 加入的CNT过多,所制得复合材料的电化学性能会 tion of nano sized LFePO by bw heatng sold state coomd ination 变差. method and micmwave heating Electmochin Acta,2007,52 (24):6778 参考文献 [11]Jia Z DaiC S Chen L.The Methods for E lectrochem icalMeas [1]PadhiA K.Nanjundasway K S Goodenough J B.Phospho oli urment Beijing Chem ical Industry Press 2006 vnes as positive elec trode materials for rechargeable lith im batter 贾铮,戴长松,陈玲.电化学测量方法.北京:化学工业出 ies J E lectrochem Soc 1997,144 (4):1188 版社,2006)第 2期 张 勇等:LiFePO4/CNT复合材料的制备及电化学性能 图 9 不同 CNT质量分数的 LiFePO4/CNT样品的线性极化曲线 Fig.9 LinearpolarizationcurvesofLiFePO4/CNTsampleswith differentcontentsofCNT 3 结论 (1)利用溶胶凝胶 微波法制备了 LiFePO4/CNT 复合材料,该材料主要为橄榄石型结构,平均粒径为 57~100nm,并确定了最佳微波时间为18min. (2)适量掺入 CNT后,可改善 LiFePO4/CNT材 料的可逆性,提高该材料的活性物质利用率和循环 稳定性能 (3)CNT质量分数为 0、1%、2%、3%、4%和 5%的样品,其首次放电比容量分别为 106、131、 142、127、120和 109mAh·g -1.CNT质量分数为 2% 的样品放电比容量最大,01C第 10次循环的放电 比容量为 136mAh·g -1,容量保持率高达 958%;但 加入的 CNT过多,所制得复合材料的电化学性能会 变差. 参 考 文 献 [1] PadhiAK,NanjundaswamyKS,GoodenoughJB.Phosphooli vinesaspositiveelectrodematerialsforrechargeablelithiumbatter ies.JElectrochemSoc,1997,144(4):1188 [2] LiFX,QiuW H,HuHY,etal.Electrochemicalperformanceof LiFePO4 synthesizedbymicrowaveprocessingaslithium battery cathodes.JUnivSciTechnolBeijing,2005,27(1):86 (李发喜,仇卫华,胡环宇,等.微波合成锂离子电池正极复 合材料 LiFePO4/C电化学性能.北京科技大学学报,2005,27 (1):86) [3] HeYS,LiaoXZ,MaZF,etal.Synthesisandelectrochemical propertiesofLiFePO4/Ccompositecathodematerials.RareMet MaterEng,2007,36(9):1644 (何雨石,廖小珍,马紫峰,等.LiFePO4/C复合正极材料的 制备及其电化学性能研究.稀有金属材料与工程,2007,36 (9):1644) [4] WuSH,ChenMS,ChienCJ,etal.Preparationandcharacter izationofTi4+ dopedLiFePO4 cathodematerialsforlithiumion batteries.JPowerSources,2009,189(1):440 [5] WangL,LiangGC,OuXQ,etal.Effectofsynthesistempera tureonthepropertiesofLiFePO4/Ccompositespreparedbycarbo thermalreduction.JPowerSources,2009,189(1):423 [6] FeyGTK,ChenYG,KaoHM.Electrochemicalpropertiesof LiFePO4preparedviaballmilling.JPowerSources,2009,189 (1):169 [7] ChungHT,JangSK,RyuHW,etal.Effectsofnanocarbon websontheelectrochemicalpropertiesinLiFePO4/Ccomposite. SolidStateCommun,2004,131(8):549 [8] JinB,JinEM,ParkKH,etal.Electrochemicalpropertiesof LiFePO4 multiwalledcarbonnanotubescompositecathodemateri alsforlithium polymerbattery.Electrochem Commun,2008,10 (10):1537 [9] LuoS,TangZ,LuJ,etal.Electrochemicalpropertiesofcarbon mixedLiFePO4cathodematerialsynthesizedbytheceramicgranu lationmethod.CeramInt,2008,34(5):1349 [10] WangL,HuangY,JiangR,etal.Preparationandcharacteriza tionofnanosizedLiFePO4bylowheatingsolidstatecoordination methodandmicrowaveheating.Electrochim Acta,2007,52 (24):6778 [11] JiaZ,DaiCS,ChenL.TheMethodsforElectrochemicalMeas urement.Beijing:ChemicalIndustryPress,2006 (贾铮,戴长松,陈玲.电化学测量方法.北京:化学工业出 版社,2006) ·209·