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动力锂离子电池正极材料的研究评述(20180813151758)

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动力锂离子电池正极材料的研究评述(20180813151758)

38 9 Vol.38, No.92009 9 RARE METAL MATERIALS AND ENGINEERING September 2009 2008-09-22 1979 ┦ 243002 0555-2311807, E-mail tfyihit163.cm ∴ 1ē 1ē 1ē 1ē 21. 2430022. 150001 ∴ LiMn 2O 4 Li MPO 4 ∴ LiMn 2O4 Li M PO4 LiMn 2O4 ∴ Li M PO4 Li 3V 2PO 43 ∴ ∴ LiMn 2O4 LiFePO 4 Li 3 V2 PO4 3Ё TM 912.9 A 1002-185X200909-1687-06 ∴ ˊ ⑤ г ⑤ ∴ А П Ё ∴ κ400 Table 2 Comparison of several kinds of cathode materials for lithium ion battery [25]Cathode material LiCoO 2 LiNiO 2 LiMn 2O4 LiFePO 4 Li 3 V2 PO4 3Operating voltage / V About 3.6 About 3.8 About 3.6 About 3.5 3.64.6 Theoretical capacity / mAh g-1 274 275 148 170 332 x5 197 x3 Actual capacity /mAh g-1 130150 150220 110130 135153 120150 x3 High rate discharge performance Good - Good Good Good Electric conductivity / S cm-1 10-3 - 10-5 10-9 10-7Cycle life 500 - 500 500 500 LiMn 2O4 ⑤ ∵ ∴ Ё Jahn-Teller 55 Ё Mn 3 Mn 2⒊ Ё LiMn 2O4 LiMn 2O4 [7] [8] Pechini Pechini [9] ⒊ - [10] [11] ∈ [12] [13] [14] [15] X [16] [17] LiMn 2O4 ⒊ - Pechini K ▂ ┉ K П Ё Li Mn ˊ П Ё ┉ K X ┉ / ┻ Ё ▂ Ni Mn ┉ K ▂ ┉ ▂ ∴ П LiMn 2O4 LiMn 2 O4 9 ∴ g 1689gL └ Jahn-Teller LiMn 2O4 3 1 Mn Jahn-Teller Li Mg 2 Zn 2 ∴ [18] 2 Mn Cr 3 Co3 Ni 2 Mn M-O Mn-O 5 V ∴ [19] 3 Mn Al 3 Ga3 8 a Li ∴ ┑ [20] Li M PO 4LiFePO 4 ‘ LiFePO 4 170 mAhg -1 ˊ 3.5 V LiCoO 2 LiNiO 2 LiMn 2O4 LiFePO 4 ⑤ ∴ LiFePO 4 [21] ∈ [22] [23] -⒊ [24] [25] [26] ∈ ▂ -⒊ ˊ ▂ Ё Fe3 Fe2 ˊ ⒊ Ё LiFePO 4 ∴ ˊ ∴ ╠ ˇ LiFePO 4 ⑤Ё 3.1.1 LiFePO 4 LiFePO 4Ё П ∴ LiFePO 4 ╫ Li Ё LiFePO 4 [27] 3.1.2 П LiFePO 4K LiFePO 4K 200 nm ▂ ┻ [28] 3.1.3 ˇ LiFePO 4 ∴ K K ╝ ˇ ╝ K ˇ [29] Li 3V 2PO 43Li 3V 2PO 43 LiCoO 2 Li 3V 2PO 43 LiCoO 2 г LiMn 2O4 LiFePO 4 Li 3V 2PO 43 Li [30] Li 3V 2PO 43 LiFePO 4 ∴ [31] Li 3V 2PO 43 [32] Li 3V 2PO43 g 1690g 38 Li 3V 2PO 4 3 Li 3V 2PO 4 3 PO 4 VO 6 * VO 6 6 PO4 PO 4 4 VO 6 VO 62PO 43 Li 3V 2PO 4 3 Li 3V 2PO 43 PO43- ╝ Li 3V 2PO 4 3 Li 3V 2 PO 43 VO 6 PO4 * V-O-P Ё Ё VO 6 PO4 ╘ Li 3V 2PO4 3 10-7 S cm-1 [33] LiCoO 2 LiMn 2O4 Li 3 V 2PO 43Ё V 4 ˊ 5 Ё ˊ 332 mAh g -1 Li 3V 2PO 43 ⒊ - Ё ∴ c K H 2 H 2 ┭ Ё П ┑ ˇ [31,34] Ё H2 C Ё C C C H 2 [35] ⒊- ⒊ ˊ ▂ [36] ▂ ▂ [37] Li 3V 2PO 43 Ё VO 6 ╘ Li 3 V 2PO 43 Li 3V 2PO 43 K 8 ˊ Ё K [35,36] Li 3 V 2PO 43 1 2 Li 3 V 3 ∴ DSC Li 3V 2PO 43 DSC Li 3V 2PO 43 LiFePO 4 Li 3V 2PO 43 [38] LiFePO 4 ∴ ∴ ∴ LiFePO 4 ▂ 2 LiFePO 4 ∴ LiFePO 4 / LiFePO 4 ∴ ╠ c LiFePO 4 ∴ LiCoO 2 LiMn 2O4 Н ∴ ╓ 9 ∴ g 1691g LiMPO 4 , [39] , ∴ Li 3V 2PO 43 ∴ - , ∴ ∴ ∴ References[1] Shi Zhicong , Yang Yong . 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Materials Science and Engineering B [J], 2005, 1191 75 [14] Raja M W, Mahanty S, Ghosh P et al . Materials Research Bulletin [J], 2007, 428 1499 [15] Lee Y S, Sun Y K, Ota S et al . Electrochem Commun[J], 2002, 412 989 [16] Kim J H, Myung S T, Sun Y K. Electrochim Acta [J], 2004, 492 219 [17] Shen P, Huang Y, Liu L et al . J Solid State Electrochem [J], 2006, 1011 929. [18] Yi Tingfeng , Hu Xinguo , Gao Kun . Rare Metal Materials and Engineering [J], 2006, 35S2 9 [19] Yi Tingfeng , Hu Xinguo , Gao Kun et al . Rare Metal Materials and Engineering [J], 2006, 359 1350 [20] Xiao L, Zhao Y, Yang Y et al. Electrochim Acta [J], 2008, 542 545 [21] Luo Shaohua , Tang Zilong , Lu Junbiao et al . Rare Metal Materials and Engineering [J], 2007, 368 1366 [22] Franger S, Bourbon C, Rouault H et al . J Power Sources[J], 2003119121 252 [23] Masashi H, Katayama K, Azuma Y et al. J Power Sources[J], 2003119121 258 [24] Wang G X, Needham S, Yao J et al. J Power Sources [J], 2006, 1591 282 [25] He Yushi , Liao Xiaozhen , Ma Zifeng et al . Rare Metal Materials and Engineering [J], 2007, 369 1644 [26] Arnold G, Garche J, Hemmer R et al . J Power Sources [J], 2003119121 247 [27] Zhuang Dagao , Zhao Xinbing , Xie Jian et al . Rare Metal Materials and Engineering [J], 2007, 361 149 [28] Teng T H, Yang M R, Wu S H et al. Solid State Communications [J], 2007, 1427 389 [29] Ni J F, Zhou H H, Chen J T et al. Mater Lett [J], 2007, 6145 1260 [30] Zhu Xianjun , Liu Yunxia ◢ , Geng Liangmei et al. Battery Bimonthly ∴ [J], 2007, 375 390 [31] Yin S C, Grondey H, Strobel P et al . J Am Chem Soc [J], 2003, 12534 10402 [32] Morgan D, Ceder G , Saidi M Y et al . Chem Mater [J], 2002, 141 4684 [33] Yin S C, Strobel P S, Grondey H et al . Chem Mater [J], 2004, 168 , 1456 [34] Fu P, Zhao Y, Dong Y et al . Electrochim Acta [J], 2006, 523 1003 [35] Fu P, Zhao Y, Dong Y et al. J Power Sources [J], 2006, 1621 651 [36] Li Y, Zhou Z, Ren M et al . Electrochim Acta [J], 2006, 514 6498 [37] Ying Jierong , Jiang Changyin , Tang Changping et al. Rare Metal Materials and g 1692g 38 Engineering [J], 2006, 3511 1792 [38] Saidi M Y, Barker J, Huang H et al. J Power Sources[J], 2003119121 266 [39] Chung S Y, Bloking J T, Chiang Y M. Nature Mater [J], 2002, 2 123 A Review of Research on Cathode Materials for Power Lithium Ion Batteries Yi Tingfeng 1, Yue Caibo 1, Zhu Yanrong 1, Zhu Rongsun 1, Hu Xinguo 21. Anhui University of Technology, Maanshan 243002, China 2. Harbin Institute of Technology, Harbin 150001, China Abstract LiMn 2 O4 and Li M PO4 can be used as cathode materials of power battery by judging the security of power lithium ion battery cathode material. Recent progresses on LiMn 2O4 and Li MPO4 cathode materials are reviewed. Emphasis is placed on the generalization and discussion between synthesis, structures and properties of the cathode materials. At present, the LiMn 2O 4 is the mainstreaming cathode material for power lithium ion battery. However, the Li M PO4, especial the Li 3V 2PO4 3, is the trend of development for power lithium ion battery cathode materials in long term. Key words power lithium ion battery; cathode material; LiMn 2 O4 ; LiFePO 4; Li 3V 2PO 4 3Biography Yi Tingfeng, Ph. D., Associate Professor, School of Chemistry and Chemical Engineering, Anhui University of Technology, Maanshan 243002, P. R. China, Tel 0086-555-2311807, E-mail tfyihit163.com

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