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化学进展 2011, Vol. 23 Issue (8): 1598-1610 前一篇   后一篇

• 综述与评论 •

可充镁电池电解液

赵青松, 努丽燕娜*, 郭永胜, 杨军, 王久林   

  1. 上海交通大学化学化工学院 上海 200240
  • 收稿日期:2010-11-01 修回日期:2011-03-01 出版日期:2011-08-24 发布日期:2011-07-25
  • 通讯作者: 努丽燕娜 E-mail:nlyn@sjtu.edu.cn
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导出 被引次数 ( 41 )

Electrolytes for Rechargeable Magnesium Batteries

Zhao Qingsong, Nuli Yanna*, Guo Yongsheng, Yang Jun, Wang Jiulin   

  1. School of Chemistry and Chemical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
  • Received:2010-11-01 Revised:2011-03-01 Online:2011-08-24 Published:2011-07-25

由于金属镁具有能量密度较高、价格低、操作安全等优点,可充镁电池是在大负荷储能方面极具发展潜力的二次电池。本文综述了可充镁电池电解液的研究进展,其中包括溶于醚溶剂中的格氏试剂、Mg(BR2R′2)2(其中R、R′为烷基或芳基)、Mg(AX4-nRnR′n″)2络合物(其中A=Al、B、Sb、P、As、Fe和Ta等,X =Cl、Br和F,R、R′为烷基或芳基,0<n<4,n′+n″= n)或氨基镁卤化物的有机溶液体系、可传导镁离子的熔盐体系和聚合物电解质体系;简述了各种体系的性能和特点,并对可充镁电池电解液的进一步研究和应用前景进行了展望。

关键词: 可充镁电池, 电解液, Mg(AX4-nRnR′n″)2络合物, 熔盐, 聚合物电解质

Rechargeable magnesium batteries may be a potential candidate for heavy load application due to higher energy density, cheap raw material costs and easy to handle of magnesium. In this paper, the recent research advances on electrolytes for rechargeable magnesium batteries are reviewed, especially on ethereal solutions of Grignard reagents, Mg(BR2R′2)2 (R、R′ = alkyl or aryl groups), Mg(AX4-nRnR′n″)2 complexes (A = Al, B, Sb, P, As, Fe and Ta, X = Cl, Br and F, R、R′ = alkyl or aryl groups, 0<n<4, n′+n″= n) or amidomagnesium halides, Mg ion conductive molten salts and polymeric electrolytes. The performances and characteristics of above three systems are presented, and further researches and developments are proposed.

Contents
1 Introduction
2 Ether-based organic electrolytes
2.1 Grignard reagents
2.2 Mg(BR2R′2)2
2.3 Mg(AX4-nRnR′n)2 complexes
2.4 Amidomagnesium halides
2.5 Others
3 Molten salts
3.1 Ionic liquids
3.2 High temperature molten salts
4 Polymeric electrolytes
5 Inorganic solid electrolytes
6 Conclusions and outlook

Key words: rechargeable magnesium batteries, electrolytes, Mg(AX4-nRnR′n″)2 complexes, molten salts, polymeric electrolytes

中图分类号: 

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[1] 师昌绪(Shi C X), 李恒德(Li H D), 王淀佐(Wang D Z), 李依依(Li Y Y), 左铁镛(Zuo T Y). 材料导报(Materials Review), 2001, 15: 5-6
[2] 彭成红(Peng C H), 朱敏(Zhu M). 电池(Battery), 2003, 33: 121-123
[3] 杨维谦(Yang W Q), 杨少华(Yang S H), 孙公权(Sun G Q), 辛勤(Xin Q). 化工进展(Chemical Industry and Engineering Process), 2008, 27(2): 214-217
[4] 袁华堂(Yuan H T), 吴峰(Wu F), 武绪丽(Wu X L), 李强(Li Q). 电池(Battery), 2002, 32(6): 14-17
[5] 沈健(Shen J), 彭博(Peng B), 陶占良(Tao Z L), 陈军(Chen J). 化学进展(Prog. Chem.), 2010, 22: 515-521
[6] 冯真真(Feng Z Z), 努丽燕娜(Nuli Y N), 王久林(Wang J L), 杨军(Yang J). 化学与物理电源系统(Chemical and Physical Power Sources), 2007, 1: 73-79
[7] Aurbach D, Lu Z, Schechter A, Gofer Y, Gizbar H, Turgemann R, Cohen Y, Moshkovich M, Levi E. Nature, 2000, 407: 724-727
[8] Aurbach D, Gofer Y, Lu Z, Schechter A, Chusid O, Gizbar H, Cohen Y, Ashkenazi V, Moshkovich M, Turgeman R, Levi E. J. Power Sources, 2001, 97/98: 28-32
[9] Lorentz P L, Emmenegger F. Electrochim. Acta, 1996, 41: 445-447
[10] Evans W V, Pearson R. J. Am. Chem. Soc., 1942, 64: 2865-2871
[11] 袁华堂(Yuan H T), 刘秀生(Liu X S), 曹建胜(Cao J S), 焦丽芳(Jiao L F), 赵明(Zhao M), 王永梅(Wang Y M). 电池(Battery Bimonthly), 2004, 34(2): 138-140
[12] 李吉刚(Li J G), 孙杰(Sun J), 王凤彦(Wang F Y). 化工进展(Chemical Industry and Engineering Progress), 2008, 27(2): 214-217
[13] Nelson J M, Evans W V. J. Am. Chem. Soc., 1917, 39: 82-83
[14] Genders J D, Pletcher D. J. Electroanal. Chem., 1986, 199: 93-100
[15] Liebenow C. J. Appl. Electrochem., 1997, 27: 221-225
[16] Lu Z, Schechter A, Moshkovich M, Aurbach D. J. Electroanal. Chem., 1999, 466: 203-217
[17] Aurbach D, Moshkovich M, Schechter A, Turgeman R. Electrochem. Solid-State Lett., 2000, 3: 31-34
[18] Ito S, Yamamoto O, Kanbara T, Matsuda H, US 6713213B2, 2004
[19] Guo Y S, Yang J, NuLi Y N, Wang J L. Electrochem. Commun., 2010, 12: 1671-1673
[20] Gregory T D, Hoffman R J, Winterton J. Electrochem. Soc., 1990, 137: 775-780
[21] Liebenow C, Yang Z, Lobitz P. Electrochem. Commun., 2000, 2: 641-645
[22] Aurbach D, Schechter A, Moshkovich M, Cohen Y. J. Electrochem. Soc., 2001, 148: A1004-A1014
[23] Aurbach D, Gizbar H, Schechter A, Chusid O, Gottlieb H E, Gofer Y, Goldberg I. J. Electrochem. Soc., 2002, 149: A115-A121
[24] Gizbar H, Vestfrid Y, Chusid O, Gofer Y, Gottlieb H E, Marks V, Aurbach D. Organometallics, 2004, 23: 3826-3831
[25] Vestfried Y, Chusid O, Gofer Y, Aped P, Aurbach D. Organometallics, 2007, 26: 3130-3137
[26] Viestfried Y, Levi M D, Gofer Y, Aurbach D. J. Electroanal. Chem., 2005, 576: 183-195
[27] Nakayama Y, Kudo Y, Oki H, Yamamoto K, Kitajima Y, Noda K. J. Electrochem. Soc., 2008, 155: A754-A759
[28] Gofer Y, Chusid O, Gizbar H, Viestfrid Y, Gottlieb H E, Marks V, Aurbach D. Electrochem. Solid. State Lett., 2006, 9: A257-A260
[29] Amir N, Vestfrid Y, Chusid O, Gofer Y, Aurbach D. J. Power Sources, 2007, 174: 1234-1240
[30] 冯真真(Feng Z Z). 上海交通大学博士论文(Doctoral Dissertation of Shanghai Jiao Tong University), 2008
[31] Feng Z Z, NuLi Y N, Wang J L, Yang J. J. Electrochem. Soc., 2006, 153: C689-C693
[32] 冯真真(Feng Z Z), 努丽燕娜(Nuli Y N), 杨军(Yang J). 电池工业(Battery Industry), 2007, 12: 235-240
[33] Aurbach D, Suresh G S, Levi E, Mitelman A, Mizrahi O, Chusid O, Brunelli M. Adv. Mater., 2007, 19: 4260-4267
[34] Mizrahi O, Amir N, Pollak E, Chusid O, Marks V, Gottlieb H, Larush L, Zinigrad E, Aurbach D. J. Electrochem. Soc., 2008, 155: A103-A109
[35] NuLi Y N, Yang J, Wang J L, Li Y. J. Phys. Chem. C, 2009, 113: 12594-12597
[36] NuLi Y N, Yang J, Li Y S, Wang J L. Chem. Commun., 2010, 46: 3794-3796
[37] 努丽燕娜(NuLi Y N), 杨军(Yang J), 郑育培(Zheng Y P). 无机材料学报(Journal of Inorganic Materials), 2011, 26 (2): 129-133
[38] Feng Z Z, Yang J, NuLi Y N, Wang J L, Wang X J, Wang Z X. Electrochem. Commun., 2008, 10: 1291-1294
[39] Feng Z Z, Yang J, NuLi Y N, Wang J L. J. Power Sources, 2008, 184: 604-609
[40] Li Y, NuLi Y N, Yang J, Yilinuer T, Wang J L. Chinese Science Bulletin, 2011, 56 (4/5): 386-390
[41] 李云(Li Y), 努丽燕娜(NuLi Y N), 杨军(Yang J), 伊丽奴尔·吐胡达洪(Yilinuer T), 王久林(Wang J L). 电源技术(Chinese Journal of Power Sources), 2010, 34 (10): 1031-1034
[42] Liang Y L, Feng R J, Yang S Q, Ma H, Liang J, Chen J. Adv. Mater., 2011, 23: 640-643
[43] 焦丽芳(Jiao L F), 袁华堂(Yuan H T), 李晓冬(Li X D), 王永梅(Wang Y M, 曹建胜(Cao J S), 高秀玲(Gao X L), 赵明(Zhao M). 化学通报(Chemistry Online), 2005, 9: 714-717
[44] Earle M J, Seddon K R. Pure Appl. Chem., 2000, 72(7): 1391-1398
[45] Prvulescu V I, Hardacre C. Chem. Rev., 2007, 107: 2615-2665
[46] Galiński M, Lewandowski A, Stepniak I, Electrochim. Acta 2006, 51: 5567-5580
[47] Lewandowski A, Swiderska-Mocek A, J. Power Sources 2009, 194: 601-609
[48] 杨立(Yang L), 房少华(Fang S H). 电源技术(Chinese Journal of Power Sources), 2010, 34(2): 101-105
[49] 杨立(Yang L), 房少华(Fang S H). 电源技术(Chinese Journal of Power Sources), 2010, 34(3): 218-222
[50] NuLi Y N, Yang J, Wang J L, Xu J Q, Wang P. Electrochem. Solid-State Lett., 2005, 8(11): C166-C169
[51] NuLi Y N, Yang J, Wu R. Electrochem. Commun., 2005, 7: 1110-1115
[52] NuLi Y N, Yang J, Wang P. Appl. Surf. Sci., 2006, 252: 8086-8090
[53] 努丽燕娜(NuLi Y N), 杜国栋(Du G D), 冯真真(Feng Z Z), 沈佳妮(Shen J N), 杨军(Yang J). 化学学报(Acta Chimica Sinica), 2008, 66: 175-180
[54] 王璞(Wang P), 上海交通大学硕士论文(Master's Dissertation of Shanghai Jiao Tong University), 2006
[55] Wang P, NuLi Y N, Yang J, Feng Z Z. Surf. Coat. Technol., 2006, 201: 3783-3787
[56] 努丽燕娜(NuLi Y N), 杨军(Yang J), 高鹏飞(Gao P F), 李云(Li Y), 王久林(Wang J L). 化学学报(Acta Chimica Sinica), 2010, 68: 948-954
[57] Kakibe T, Yoshimoto N, Egashira M, Morita M. Electrochem. Commun., 2010, 12: 1630-1633
[58] Cheek G T, O'Grady W E, Zein El Abedin S, Moustafa E M, Endres F. J. Electrochem. Soc., 2008, 155: D91-D95
[59] Yoshimoto N, Matsumoto M, Egashia M, Morita M. J. Power Sources, 2010, 195: 2096-2098
[60] Venkata Narayanan N S, Ashok Raj B V, Sampath S. Electrochem. Commun., 2009, 11: 2027-2031
[61] Venkata Narayanan N S, Ashok Raj B V, Sampath S. J. Power Sources, 2010, 195: 4356-4364
[62] Kisza A, Ka Dz' mierczak J, Brressen B, Haarberg G M, Tunold R. J. Appl. Electrochem., 1995, 25: 940-946
[63] Kisza A, Kazmierczak J, Brressen B, Haarberg G M, Tunold R. J. Electrochem. Soc., 1997, 144: 1646-1651
[64] Martínez A M, Brresen B, Haarberg G M, Castrillejo Y, Tunold R. J. Electrochem. Soc., 2004, 151: C508-C513
[65] Brressen B, Haarberg G M, Tunold R. Electrochim. Acta, 1997, 42: 1613-1622
[66] Castrillejo Y, Martínez A M, Pardo R, Haarberg G M. Electrochim. Acta, 1997, 42: 1869-1876
[67] Meyer W H. Adv. Mater., 1998, 10: 439-448
[68] Agrawal R C, Pandey G P. J. Phys. D: Appl. Phys., 2008, 41: art. no. 223001
[69] 肖立新(Xiao L X), 郭炳焜(Guo B K), 李新海(Li X H). 电池(Battery Bimonthly), 2003, 33(2): 110-113
[70] Yang L L, Farrington G C, Chiodelli G. Solid State Ionic, 1986, 18/19: 291-294
[71] Yang L L, McGhie A R, Farrington G C. J. Electrochem. Soc., 1986, 133: 1380-1385
[72] Patrick A, Glasse M, Latham R, Linford R. Solid State Ionics, 1988, 18/19: 1063-1067
[73] Cherng J Y, Munshi M Z A, Owens B B, Smyrl W H. Solid State Ionics, 1988, 28/30: 857-861
[74] Jaipal Reddy M, Chu P P. Solid State Ionics, 2002, 149: 115-123
[75] Jaipal Reddy M, Chu P P. J. Power Sources, 2002, 109: 340-346
[76] Liebenow C, Reiche A, Lobitz P. Electrochim. Acta, 1998, 43: 2375-2378
[77] Liebenow C. Electrochim. Acta, 1998, 43: 1253-1256
[78] Liebenow C. Solid State Ionics, 2000, 136/137: 1211-1214
[79] Acosta J L, Morales E. Electrochim. Acta, 1998, 43: 791-797
[80] Girish Kumar G, Munichandraiah N. J. Electroanal. Chem., 2000, 495: 42-50
[81] Girish Kumar G, Munichandraiah N. Electrochim. Acta, 1999, 44: 2663-2666
[82] Girish Kumar G, Munichandraiah N. Solid State Ionics, 2000, 128: 203-210
[83] Girish Kumar G, Munichandraiah N. J. Power Sources, 2000, 91: 157-160
[84] Girish Kumar G, Munichandraiah N. J. Power Sources, 2001, 102: 46-54
[85] Girish Kumar G, Munichandraiah N. Electrochim. Acta, 2002, 47: 1013-1022
[86] Perera K, Dissanayake M A K L, Bandaranayake P W S K. Mater. Res. Bull., 2004, 39: 1745-1751
[87] Lauenstein , Tegenfeldt J. J. Phys. Chem. B, 1998, 102: 6702-6709
[88] Sheha E, El-Mansy M K. J. Power Sources, 2008, 185: 1509-1513
[89] Chusid O, Gofer Y, Gizbar H, Vestfrid Y, Levi E, Aurbach D, Riech I. Adv. Mater., 2003, 15: 627-630
[90] Aravindan V, Karthikaselvi G, Vickraman P, Naganandhini S P. J. Appl. Polym. Sci., 2009, 112: 3024-3029
[91] Saito M, Ikuta H, Uchimoto Y, Wakihara M. Yokoyama S, Yabe T, Yamamoto M. J. Electrochem. Soc., 2003, 150: A477-A483
[92] Saito M, Ikuta H, Uchimoto Y, Wakihara M, Yokoyama S, Yabe T, Yamamotoc MJ. Electrochem. Soc., 2003, 150: A726-A731
[93] Saito M, Ikuta H, Uchimoto Y, Wakihara M, Yokoyama S, Yabe T, Yamamoto M. J. Phys. Che.  B, 2003, 107: 11608-11614
[94] Morita M, Yoshimoto N, Yakushiji S, Ishikawa M. Electrochem. Solid-State Lett., 2001, 4(11): A177-A179
[95] Yoshimoto N, Tomonaga Y, Ishikawa M, Morita M. Electrochim. Acta, 2001, 46: 1195-1200
[96] Yoshimoto N, Yakushiji S, Ishikawa M, Morita M. Solid State Ionics, 2002, 152/153: 259-266
[97] Yoshimoto N, Yakushiji S, Ishikawa M, Morita M. Electrochim. Acta, 2003, 48: 2317-2322
[98] Morita M, Shirai T, Yoshimoto N, Ishikawa M. J. Power Sources, 2005, 139: 351-355
[99] Oh J S, Ko J M, Kim D W. Electrochim. Acta, 2004, 50: 903-906
[100] Pandey G P, Hashmi S A. J. Power Sources, 2009, 187: 627-634
[101] Pandey G P, Agrawal R C, Hashmi S A. J. Power Sources, 2009, 190: 563-572
[102] Kushwaha S S S, Mishra J. Current Science, 2005, 88: 1159-1161
[103] 俞文海(Yu W H), 朱斌(Zhu B), 王大志(Wang D Z). 材料科学进展 (Material Science Progress), 1988, 2: 72-77
[104] 朱斌(Zhu B), 薛立新(Xue L X), 王大志(Wang D Z), 俞文海(Yu W H). 无机材料学报(J. Inorg. Mater. ), 1987, 2(2): 176-182
[105] 朱斌(Zhu B), 陈茂春(Chen M C), 陈世红(Chen S H), 俞文海(Yu W H). 中国科学技术大学学报(Journal of China University of Science and Technology), 1989, 19: 393-398
[106] 袁望治(Yuan W Z), 劳令耳(Lao L E), 黄英才(Huang Y C). 贵州工学院学报(Journal of Guizhou University of Technology), 1996, 25: 86-91
[107] 朱斌(Zhu B), 王文楼(Wang W L), 陈茂春(Chen M C), 刘皖育(Liu W Y), 林枫凉(Lin F L), 俞文海(Yu W H). 无机材料学报(J. Inorg. Mater. ), 1991, 6: 213-218
[108] Imanaka N, Okazaki Y, Adachi G. Chem. Lett. 1999, 939-940
[109] Imanaka N, Okazaki Y, Adachi G. J. Mater. Chem., 2000, 10: 1431-1435
[110] Imanaka N, Okazaki Y, Adachi G. Electrochem. Solid-State Lett., 2000: 3: 327-329
[111] Imanaka N, Okazaki Y, Adachi G. Ionics, 2001, 7: 440-446
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摘要

可充镁电池电解液