综述了钒氧化物在锂离子电池中的应用,重点介绍了V2O5、V6O13、VO2、V3O7、V6O14的结构、制备方法以及其锂离子电池的电化学性质,说明了V4O9、V2O3难在锂离子电池中应用的原因,讨论了钒氧化物作锂离子电池的正极材料的优点以及存在的问题,最后提出钒氧化物有希望成为实用的锂离子电池阴极材料.
The development of vanadium oxides in lithium ion batteries was summaried. The structure, synthesis methods, electrochemical performances of V2O5, V6
13, VO2, V3O7 and V6O14 in lithium ion batteries were reviewed. The reasons for V4O9, V2O3 excluded from the application in lithium ion batteries were explained. Then the advantage and problem of vanadium oxides as cathode materials of lithium ion batteries were pointed out. Finally the authors considered that those vanadium oxides could be promising as cathode materials of lithium ion batteries.
参考文献
[1] | 任旭梅, 吴川, 何国蓉, 等. 化学研究与应用, 2000, 12 (4): 360--364. [2] 詹晖, 周运鸿. 电源技术, 1999, 23 (3): S102--S105. [3] 刘景, 温兆银, 吴梅梅, 等(Liu Jing, et al). 无机材料学报(Journal of Inorganic Materials), 2002, 17 (1): 1--9. [4] 张国昀, 姜长印, 万春荣, 等. 电源技术, 2001, 25: S175--S178. [5] 周静, 陈文, 徐庆, 等. 分子科学学报, 2001, 17 (2): 71--76. [6] 张青莲, 申泮文. 无机化学丛书, 第八卷. 北京: 科学出版社, 1998. 173--281. [7] 童茂松, 戴国瑞, 高鼎三, 等. 功能材料, 2000, 31 (3): 230--232. [8] Yoshiaki Asami. 新型碳材料, 1997, 12 (1): 19--23. [9] Legendre J J, Livage J. J of colloid and interfer science, 1983, 94 (1): 75--83. [10] Chung S K, Chmilenko N A, Borovykov A Ya, et al. J. Power Sources, 1999, 84: 6--11. [11] Owens B B, Passerini S, Smyrl W H. Electrochem. Acta, 1999, 45: 215--224. [12] 储炜, 吴升辉, 尤金跨. 电源技术, 1998, 22 (6): 256--260. [13] 钟俊辉. 电源技术, 1997, 21 (4): 174--177. [14] Wang Dequan, Liao Zhenjiang, Feng Xikang, et al. J. Power Sources, 1989, 26 (3-4): 347--353. [15] Frazer E J, Phang S. J. Power Sources, 1983, 10 (1): 33--41. [16] Saidi M Y, Koksbang R, Saidi E S, et al. J. Power Sources, 1997, 68 (2): 726--729. [17] West K, Zachau-Christiansen B, Jacobsen T, et al. J. Power Sources, 1985, 14 (1-3): 235--245. [18] Menetrier M, Levasseur A, Delmas. Materials Science and Engineering B, 1989, 3 (1-2): 103--107. [19] Saidi M Y, Barker J. Solid State Ionics, 1995, 78 (1-2): 169--173. [20] Barker J, Koksbang R. Solid State Ionics, 1995, 78 (1-2): 162--167. [21] 刘丽敏, 李长江. 北京化工学院学报(自然科学版), 1993, 20 (3): 118--121. [22] Murphy D W, Christian P A, DiSalvo F J, et al. J. Electrochem. Soc., 1981, 128 (10): 2053--2060. [23] Abraham K M, Goldman J L, Dempsey M D. J. Electrochem. Soc., 1981, 128 (12): 2493--2501. [24] 余渡元, 仇卫华, 刘庆国, 等. 化学通报, 1992, 7: 30--31. [25] 叶复汉. 材料科学发展, 1989, 3 (1): 81--85. [26] 刘国强, 徐宁, 曾潮流, 等. 电源技术, 2002, 26 (2): 114--118. [27] 徐时清, 赵康, 谷臣清. 稀有金属, 2002, 26 (3): 169--172. [28] 卢勇, 林理彬. 功能材料, 2001, 32 (6): 657--659. [29] 许旻, 邱家稳, 何延春, 等. 真空与低温, 2001, 7 (3): 136--138. [30] Christian P A, Di Salvo F J, Murphy D W. Nonaqueous Secondary Cell Using Vanadium Oxide Positive Electrode. U. S. Pat, 4228226, 1980. [31] Molenda J, Stoklosa A. Solid State Ionics, 1989, 36 (10): 43--52. [32] Tsang C, Manthiram A. J. Electrochem. Soc., 1997, 144 (2): 520--524. [33] Saidi M Y, Koksbang R, Saidi E S, et al. Electrochim. Acta, 1997, 42 (8): 1181--1187. [34] Hammouche A, Hammou A. Electrochim. Acta, 1987, 32 (10): 1451--1452. [35] Tranchant A, Messina R, Perichon J. J. Electroanal. Chem., 1980, 113 (10): 225--232. |
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