采用共沉淀方法结合原位碳包覆合成了LiFePO4/C复合正极材料.对碳化过程和包覆LiFePO4进行了研究.结果表明:在不同碳源的热解过程中,由于分子量和结构的不同,分解温度和碳化产物的结构也不相同;不同碳源的碳包覆对LiFePO4的晶体结构有一定的影响,而且由于碳包覆层结构的差异所包覆改性的LiFeO4表现出不同的电化学性能.文中还讨论了不同碳源对碳包覆后LiFePO4/C的电化学性能的影响.
参考文献
| [1] | A.K.Padhi,K.S.Nanjundaswamy,J.B.Goodenough,Phospho-olivines as positive-electrode materials for rechargeable lithium batteries,J.Electrochem.Soc.,144(4),1188-1194(1997) |
| [2] | H.Liu,P.Zhang,G.C.Li,Q.Wu,Y.P.Wu,LiFePO4/C composites from carbothermal reduction method,J.Solid State Electroehem.,12,1011-1015(2008) |
| [3] | H.Liu,C.Li,Q.Cao,Y.P.Wu,R.Holze,Effects of heteroatoms on doped LiFePO4/C composites,J.Solid State Electrochem.,12,1017-1020(2008) |
| [4] | H.Liu,Q.Cao,L.J.Fu,C.Li,Y.P.Wu,H.Q.Wu,Doping effects of zinc on LiFePO4 cathode material for lithium ion batteries,Electrochem.Comm.,8,1553-1557(2006) |
| [5] | P.P.Prosini,D.Zane,M.Pasquali,Improved electrochemical performance of a LiFePO4-based composite cathode,Electrochem.Acta,46,3517-3523(2001) |
| [6] | N.Ravet,Y.J.Chouinard,F.Magnan,S.Besner,M.Gauthier,M.Armand,Electroactivity of natural and synthetic triphylite,J.Power Sources,97-98,503-507(2001) |
| [7] | H.Z.Chen,J.R.Dahn,Reducing carbon in LiFePO4/C composite electrodes to maximize specific energy,volumetric energy,and tap density,J.Electrochem.Soc.,149,A1184-A1189(2002) |
| [8] | K.Konstantinov,S.Bewlay,G.X.Wang,M.Lindsay,J.Z.Wang,H.K.Liu,S.X.Dou,J.H.Ahn,New approach for synthesis of carbon-mixed LiFePO4 cathode materials,Electrochem.Acta,50,421-426(2004) |
| [9] | T.Nakamura,Y.Miwa,M.Tabuchi,Y.Yamada,Structural and surface modification of LiFePO4 olivine particles and their electrochemical properties,Electrochem.Soc.,153,A1108-A1114(2006) |
| [10] | P.M.Ajayan,T.W.Ebbesen,T.Ichinashi,K.Iijima,K.Tanigaki,H.O.Huira,Opening carbon nano-tubules with oxygen and implication for filling,Nature,362,522-525(1993) |
| [11] | P.M.Ajayan,S.Iijima,Capillarity-induced filling of carbon nanotubes,Nature,361,333-334(1993) |
| [12] | Y.Saito,M.Oikuda,T.Yoshikawa,A.Kasuya,Y.Nishina,Correlation between volatility of rare-earth-metals and encapsulation of their carbides in carbon nano-capsules,J.Phys.Chem.,98(27),6696-6698(1994) |
| [13] | 学报,2(24),172-177(2008)) |
| [14] | )) |
| [15] | SHEN Zengmin,New Carbon Materials,(Beijing,Chemical Industry Press,2003) p.53 (沈曾民,新型碳材料,(北京,化学工业出版社,2003)P.53) |
| [16] | M.R.Yang,W.H.Ke,S.H.Wu,Preparation of LiFePO4powders by co-precipitation,J.Power Sources,146,539-543(2005) |
| [17] | R.H.Guo,G.G.Xu,P.D.Zhong,D.Ke,J.L.Yan,Synthetic LiFePO4/C without using inert gas,Chinese Chemistry Letters,18,337-340(2007) |
| [18] | S.Franger,C.Bourbon,F.L.Cras,Optimized lithium iron phosphate for high-rate electrochemical applications,J.Electrochem.Soc.,151,A1024-A1027(2004) |
| [19] | A.A.Salah,A.Mauger,K.Zaghib,J.B.Goodenough,Reduction Fe3+ of impurities in LiFePO4 from pyrolysis of organic precursor used for carbon deposition,J.electrochem.Soe.,153,A1692-A1701(2006) |
| [20] | PO4的合成及其改性,上海电力学院学报,22,269-273(2006)) |
| [21] | C.Y.Lai,J.C.Zhao,J.Y.Xie,Beta-cyclodextrin as carbon source for synthesis of LiFePO4/C with improved electrochemical properties in lithium-ion batteries,J.Rare Earths,23,219-223(2005) |
| [22] | K.Kim,J.H.Jeong,I-J Kim,H-S Kim,Carbon coatings with olive oil,soybean oil,and butter on nane-LiFePO4,J.Power Sources,2(167),524-528(2007) |
| [23] | R.Dominko,J.M.Goupil,M.Bele,M.Gaberscek,M.Remsker,D.Hanzel,J.Jamnik,Impact of LiFePO4/C composites porosity on their electrochemical performance,J.Electrochem.Soc,152,A858-A863(2005) |
| [24] | ,484-488(2006)) |
| [25] | A.S.Andersson,J.O.Thomas,The source of first-cycle capacity loss in LiFePO4,J.Power Sources,97,498-502(2001) |
| [26] | D.P.Abraham,E.M.Reynolds,P.L.Schultez,A.N.Jansen,D.W.Dees,Temperature dependence of capacity and impedance data from fresh and aged high power lithium-ion cells,J.Electrochem.Soc.,153(8),A1610-1616(2006) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%