English
往期目录
新闻公告
More
化学进展 2006, Vol. 18 Issue (05): 641-647 前一篇   后一篇

• 综述与评论 •

金属锂二次电池研究进展

王莉 何向明 蒲薇华 姜长印 万春荣   

  1. 清华大学核能与新能源技术研究院 材料化学实验室
  • 收稿日期:2005-08-01 修回日期:1900-01-01 出版日期:2006-01-01 发布日期:2006-01-01
  • 通讯作者: 王莉
下载PDF ( 2978 ) 引用
导出 被引次数 ( 41 | 8 )

Progress in Rechargeable Lithium Metal Batteries

Li Wang Xiangming He Weihua Pu Changyin Jiang Chunrong Wan   

  1. Materials Chemistry Lab, INET, Tsinghua University
  • Received:2005-08-01 Revised:1900-01-01 Online:2006-01-01 Published:2006-01-01
  • Contact: Li Wang
本文综述了近年来金属锂二次电池的研究进展,主要包括金属锂负极的表面改性、SEI膜的形成和调制、电解质体系的改进及研发,以及电池制备工艺等,并在综述各方面进展的基础上对金属锂二次电池未来的研究方向进行了展望。
关键词: 金属锂二次电池, 锂负极, SEI膜
Recent advances in rechargeable lithium metal batteries including the improvements in lithium metal anode, SEI film, electrolytes and fabrication process are reviewed. The prospects in the reserch of rechargeable lithium metal batteries are also discussed.
Key words: rechargeable lithium batteries, lithium metal anodes, SEI films

中图分类号: 

()

[ 1 ] Aurbach D , Zinigrad E , Teller H , et al . J . Electrochem. Soc. ,2002 , 149 (10) : A1267 —A1277
[ 2 ] 徐艳辉( Xu Y H) . 稀有金属材料与工程( Rare Metal Materials and Engineering) , 2004 , 33 (1) : 1 —4
[ 3 ] Dan P , Mengeritsky E , Geronov Y, et al . J . Power Sources ,1995 , 54 : 143 —149
[ 4 ] Gofer Y, Ben-Zion M, Aurbach D. J . Power Sources , 1992 , 39 :163 —167.
[ 5 ] Aurbach D , Weissman I , Zaban A , et al . J . Electrochem. Soc. ,1996 , 143 : 2110 —2115
[ 6 ] Munichandraiah N , Scanlon L G, Marsh R A. J . Power Sources ,1998 , 72 : 203 —210
[ 7 ] Kang X. Chem. Rew. 2004 , 104 : 4303 —4417
[ 8 ] Ein-Eli Y, Markovsky B , Aurbach D , et al . Electrochim. Acta ,1994 , 39 : 2559 —2564
[ 9 ] Gnanaraj J S , Levi M D , Levi E , et al . J . Electrochem. Soc. ,2001 , 148 : A525 —A529
[10] Kanamura K, Tamura H , Shiraishi S , et al . J . Electroanal .Chem. , 1995 , 394 : 49 —62
[11] Michael S D , Xu K, Jow T R. J . Electrochem. Soc. , 2005 , 152(1) : A132 —A140
[12] Jow T R , Xu K, Ding M S , et al . J . Electrochem. Soc. , 2004 ,151 (10) : A1702 —A1706
[13] Xu W, Shusterman AJ , Marzke R , et al . J . Electrochem. Soc. ,2004 , 151 (4) : A632 —A638
[14] Appetecchi G B , Zane D , Scrosatia B. J . Electrochem. Soc. ,2004 , 151 (9) : A1369 —A1374
[15] Yamaguchi H , Takahashi H , Kato M, et al . J . Electrochem.Soc. , 2003 , 150 (3) : A312 —A315
[16] Sasaki Y, Handa M, Kurashima K, et al . J . Electrochem. Soc. ,2001 , 148 : A999 —A1004
[17] 庄全超(Zhuang Q C) , 武山(Wu S) . 电源技术(Chinese Journal of Power Sources) , 2004 , 28 (2) : 104 —109
[18] Aurbach D , Zinigrad E , Teller H , et al . J . Electrochem. Soc. ,2000 , 147 (4) : 1274 —1279
[19] Aurbach D , Moshikovich M. J . Electrochem. Soc. , 1989 , 145 :2629 —2635
[20] Youngman O , Gofer Y, Meitav A , et al . Electrochim. Acta ,1990 , 35 : 625 —639
[21] Liang H Y, Li H , Wang Z X, et al . J . Phys. Chem. B , 2001 ,105 : 9966 —9969
[22] Zhou Z B , Takeda M, Makoto U. J . Fluor. Chem. , 2004 , 125 :471 —476
[23] Mizumo T , Marwanta E , Matsumi N , et al . Chem. Letters ,2004 , 33 (10) : 1360 —1361
[24] Chagnes A , Diaw M, CarréP , et al . J . Power Source , 2005 ,145 : 82 —88
[25] 石家华(Shi J H) , 孙逊(Sun X) , 杨春和( Yang C H) 等.化学通报(Chemistry) , 2002 , 4 : 243 —250
[26] Fung YS , Zhou R Q. J . Power Sources , 1999 , 81P82 : 891 —895
[27] Garcia B , Lavallée S , Perron G, et al . Elelctrochim. Acta ,2004 , 49 : 4583 —4588
[28] Howlett P C , MacFarlane D R , Hollenkamp A F. J . Power Sources , 2003 , 114 (2) : 277 —284
[29] Zhang X, Kostecki R , Richardson T J , et al . J . Electrochem.Soc. , 2001 , 148 : A1341 —1345
[30] Kanamura K, Tamura H , Shiraishi S , et al . J . Electroanal .Chem. , 1995 , 394 : 49 —62
[31] Lee H S , Ma , Z F , Yang X Q , et al . J . Electrochem. Soc. ,2004 , 151 (9) : A1429 —A1435
[32] Kanamura K, Shiraishi S , Takehara Z. J . Fluor. Chem. , 1998 ,87 : 235 —243
[33] Yamaki J I , Yamazaki I , Egashira M, et al . J . Power Sources ,2001 , 102 : 288 —293
[34] Osaka T , Momma T , Matsumoto Y, et al . J . Power Sources ,1997 , 68 : 497 —500
[35] Kanamura K, Okagawa T , Takehara Z. J . Power Sources , 1995 ,57 : 119 —123
[36] 吴宇平(Wu Y P) , 万春荣(Wan C R) , 姜长印(Jiang C Y)等. 功能材料(Journal of Functional Materials) , 2000 , 31 (5) :449 —451
[37] Ota H , Shima K, Ue M, et al . Electrochim. Acta , 2004 , 49 :565 —572
[38] Aurbach D , Gamolsky K, Markovsky B , et al . Electrochim.Acta , 2002 , 47 : 1423 —1428
[39] Oesten R , Heider U , Schmid M. Solid State Ionics , 2002 , 148 :391 —396
[40] Morita M, Ishikawa M, Matsuda Y. Lithium Ion Batteries :Fundamentals and Performance (eds. Wakihara M, Yamamoto O)New York : Wiley-VCH , 1999. 156 —169
[41] Ribes A T , Beaunier P , Willmann P , et al . J . Power Sources ,1996 , 58 : 189 —195
[42] Matsuda Y, Takemitsu T , Tanigawa T , et al . J . Power Sources ,2001 , 97/98 : 589 —591
[43] Le Granvalet-Mancini M, Hanrath T , Teeters D. Solid State Ionics , 2000 , 135 : 283 —290
[44] Le Granvalet-Mancini M, Honeycutt L , Teeters D. Electrochim.Acta , 2000 , 45 : 1491 —1500
[45] Le Granvalet-Mancini M, Teeter D. J . Power Sources , 2001 , 97/98 : 624 —627
[46] Jeong YB , Kim D W. Solid State Ionics , 2005 , 176 : 47 —51
[47] Zaghib K, Armand M, Gautier M. J . Electrochem. Soc. , 1998 ,145 : 3135 —3140
[48] Kono M, Hayashi E , Vishiura M, et al . J . Electrochem. Soc. ,2000 , 147 : 2517 —2524
[49] MacFarlane D R , Forsyth M. Adv. Mater. , 2001 , 13 : 957 —966
[50] MacFarlane D R , Huang J , Forsyth M. Nature , 1999 , 402 :792 —794
[51] Hammami A , Raymond N , Armand M. Nature , 2003 , 424 :635 —636
[52] Tarascon J M, Armand M. Nature , 2001 , 414 : 359 —367
[53] Alarco P J , Abu-Lebdeh Y, Abouimrane A , et al . Nature Materials , 2004 , 3 : 476 —481
[54] Abu-Lebdeh Y, Abouimrane A , Alarco P J , et al . Electrochem.Commun. , 2004 , 6 : 432 —434
[55] Abu-Lebdeh Y, Alarco P J , Armand M. Angew. Chem. , 2003 ,42 : 4499 —4501
[56] Long S , MacFarlane D R , Forsyth M. Solid State Ionics , 2004 ,175 : 733 —738
[57] Pas S J , Efthimiadis J , Pringle J M, et al . J . Mater. Chem. ,2004 , 14 : 2603 —2605
[58] McFarlane D E , Meakin P , Sun J , et al . J . Phys. Chem. B ,1999 , 103 : 4164 —4170
[59] Fujieda T , Yamamoto N , Saito K, et al . J . Power Sources ,1994 , 52 : 197 —200
[60] Chung K I , Lee J D , Kim E J , et al . Microchem. J . , 2003 , 75 :71 —77
[61] Chung K, Kim W S , Choi Y K, et al . J . Electroanal . Chem. ,2004 , 566 : 263 —267
[62] Choi N S , Lee Y M, Park J H , et al . J . Power Sources , 2003 ,119/121 : 610 —616
[63] Lee Y M, Choi N S , Park J H , et al . J . Power Sources , 2003 ,119/121 : 964 —972
[64] Choi N S , Lee Y M, Seol W, et al . Solid State Ionics , 2004 ,172 : 19 —24
[65] Aurbach D , Zinigrad E , Cohen Y, et al . Solid State Ionics ,2002 , 148 : 405 —416
[66] Kwon C W, Cheon S E , Song J M, et al . J . Power Sources ,2001 , 93 : 145 —150
[67] Park M S , Yoon W Y. J . Power Sources , 2003 , 114 : 237 —243
[68] Ishikawa M, Kanemoto M, Morita M. J . Power Sources , 1999 ,81/82 : 217 —220
[69] Ishikawa M, Tasaka Y, Yoshimoto N , et al . J . Power Sources ,2001 , 97/98 : 262 —264
[70] Wilkinson D P , Wainwright D. J . Electroanal . Chem. , 1993 ,355 : 193 —198
[71] Hirai T , Yoshimatsu I , Yamaki J I. J . Electrochem. Soc. ,1994 , 141 : 600 —603
[72] Peter R B , Emmanuel E , John R O. J . Power Sources , 1999 ,81/82 : 833 —837
[1] 于小燕, 李萌, 魏磊, 邱景义, 曹高萍, 文越华. 聚丙烯腈在锂金属电池电解质中的应用[J]. 化学进展, 2023, 35(3): 390-406.
[2] 王许敏, 李书萍, 何仁杰, 余创, 谢佳, 程时杰. 准固相转化机制硫正极[J]. 化学进展, 2022, 34(4): 909-925.
[3] 岳昕阳, 包戬, 马萃, 吴晓京, 周永宁. 热熔灌输法制备三维骨架支撑金属锂复合负极[J]. 化学进展, 2022, 34(3): 683-695.
[4] 陈龙, 黄少博, 邱景义, 张浩, 曹高萍. 聚合物固态锂电池电解质/负极界面[J]. 化学进展, 2021, 33(8): 1378-1389.
[5] 万文博, 蒲薇华, 艾德生. 锂硫电池最新研究进展[J]. 化学进展, 2013, 25(11): 1830-1841.
[6] 王维坤, 余仲宝, 苑克国, 王安邦, 杨裕生. 高比能锂硫电池关键材料的研究[J]. 化学进展, 2011, 23(0203): 540-547.
[7] 庄全超 徐守东 邱祥云 崔永丽 方亮 孙世刚. 锂离子电池的电化学阻抗谱分析[J]. 化学进展, 2010, 22(06): 1044-1057.
[8] 高鹏,韩家军,朱永明,张翠芬,李宁. 金属锂二次电池锂负极改性[J]. 化学进展, 2009, 21(0708): 1678-1686.
[9] 倪江锋,周恒辉,陈继涛,苏光耀. 锂离子电池中固体电解质界面膜(SEI)研究进展[J]. 化学进展, 2004, 16(03): 335-.
阅读次数
全文


摘要

金属锂二次电池研究进展