锂离子电容器集流体用穿孔箔的研究进展

材料导报, 2013, 27(23): 28-31.

锂离子电容器集流体用穿孔箔的研究进展

徐启远 ^1, , 徐永进 ^2, , 朱永法 ^3, , 姜冬冬 ^4,

1.深圳清华大学研究院电化学储能器件重点实验室,深圳518057

2.深圳清华大学研究院电化学储能器件重点实验室,深圳518057

3.清华大学化学系,北京100084

4.深圳清华大学研究院电化学储能器件重点实验室,深圳518057

基金项目: 深圳市战略性新兴产业发展专项资金(JCYJ20130402103815901)

关键词：集流体 , 穿孔箔 , 锂离子电容器 , 预掺锂

Research Progress on Perforated Foil of Electrode Collector for Lithium Ion Capacitor

XU Qiyuan ^1, , XU Yongjin ^2, , ZHU Yongfa ^3, , JIANG Dongdong ^4,

1.深圳清华大学研究院电化学储能器件重点实验室,深圳518057

2.深圳清华大学研究院电化学储能器件重点实验室,深圳518057

3.清华大学化学系,北京100084

4.深圳清华大学研究院电化学储能器件重点实验室,深圳518057

Keywords： electrode collector , perforated foil , lithium ion capacitor , pre-lithiated

集流体用穿孔箔是锂离子电容器的重要组成部分,不仅为锂离子电容器电极预掺锂提供通道,使锂离子迅速、均匀地掺杂到整个电极中,而且还承载电极活性材料,并将产生的电流汇集起来.系统地介绍了穿孔箔的主要结构参数(孔径、孔隙率)对锂离子电容器电化学性能的影响规律及其机理,并综述了锂离子电容器集流体用穿孔箔的制备方法,最后展望了穿孔箔的发展趋势.

参考文献

[1]	H. Ibrahim;A. Ilinca;J. Perron .Energy storage systems$$$$Characteristics and comparisons[J].Renewable & sustainable energy reviews,2008(5):1221-1250.
[2]	Vinodkumar Etacheri;Rotem Marom;Ran Elazari;Gregory Salitra;Doron Aurbach .Challenges in the development of advanced Li-ion batteries: a review[J].Energy & environmental science: EES,2011(9):3243-3262.
[3]	G. G. Amatucci;F. Badway;A. Du Pasquier .An Asymmetric Hybrid Nonaqueous Energy Storage Cell[J].Journal of the Electrochemical Society,2001(8):A930-A939.
[4]	Lee J H;Shin W H;Ryou M H et al.Functionalized graphene for high performance lithium ion capacitors[J].Chem Sus Chem,2012,5(12):2328.
[5]	Wu F;Lu H Q;Su Y F et al.A simple way of pre-doping lithium ion into carbon negative electrode for lithium ion capacitor[J].Materials Science Forum,2010,650:142.
[6]	Sivakkumar S R;Pandolfo A G .Evaluation of lithium-ion capacitors assembled with pre-lithiated graphite anode and activated carbon cathode[J].Electrochimica Acta,2012,65:280.
[7]	Park M S;Lim Y G;Kim J H et al.A novel lithium-doping approach for an advanced lithium ion capacitor[J].Adv Energy Mater,2011,1(06):1002.
[8]	Cao W J;Zheng J P .Li-ion capacitors with carbon cathode and hard carbon/stabilized lithium metal powder anode electrodes[J].Journal of Power Sources,2012,213:180.
[9]	V. Khomenko;E. Raymundo-Pinero;F. Beguin .High-energy density graphite/AC capacitor in organic electrolyte[J].Journal of Power Sources,2008(2):643-651.
[10]	富士重工业株式会社 .锂离子电容器[P].中国,200680042376.2,2008-11-19.
[11]	李超群,李新海,王志兴,郭华军.碱性镍电池集流材料的研究进展[J].电池,2007(01):57-59.
[12]	东洋铝株式会社 .负极集电体用金属箔[P].中国,201180016166.7,2013-01-30.
[13]	李青松,马恒,王庆国,吕长栓.集流体基体对铁负极性能影响的研究[J].河南师范大学学报（自然科学版）,2011(01):76-79.
[14]	胡建军,刘侦德,李宇明,程建聪.聚合物锂离子电池正极集流体材料的研制与应用[J].湖南有色金属,2008(05):40-42.
[15]	东莞新能源电子科技有限公司 .聚合物锂离子电池的集流体[P].中国,02250069.3,2003-10-22.
[16]	日本制箔株式会社 .集流体及其制造方法[P].日本,JP2004103314A,2004-04-02.
[17]	北京科技大学;北京伟豪铝业有限责任公司 .一种可控高压阳极铝箔隧道孔长度的腐蚀方法[P].中国,200610011511.9,2006-10-18.
[18]	盖军辉,何业东,于维平.使用微孔铝集流体的LiFePO4正极的性能[J].电池,2010(03):140-142.
[19]	Andreas Stein .Sphere templating methods for periodic porous solids[J].Microporous and Mesoporous Materials,2001(0):227-239.
[20]	Velev O D;Jede T A;Lobo R F et al.Porous silica via colloidal crystallization[J].Nature,1997,389(6650):447.
[21]	Imhof A;Pine D J .Ordered macroporous materials by emulsion templating[J].Nature,1997,389(6654):948.
[22]	Dominic Walsh;Laura Arcelli;Toshiyuki Ikoma;Junzo Tanaka;Stephen Mann .Dextran templating for the synthesis of metallic and metal oxide sponges[J].Nature materials,2003(6):386-390.
[23]	Heon-Cheol Shin;Jian Dong;Meilin Liu .Nanoporous Structures Prepared by an Electrochemical Deposition Process[J].Advanced Materials,2003(19):1610-1614.
[24]	Heon-Cheol Shin;Meilin Liu .Copper Foam Structures with Highly Porous Nanostructured Walls[J].Chemistry of Materials,2004(25):5460-5464.
[25]	樊小勇,庄全超,魏国祯,柯福生,黄令,董全峰,孙世刚.以多孔铜为集流体制备Cu6Sn5合金负极及其性能[J].物理化学学报,2009(04):611-616.
[26]	倪江锋,周恒辉,陈继涛,张新祥.锂离子电池集流体的研究[J].电池,2005(02):128-130.

上一张下一张

计量

下载量()
访问量()

作者相关

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网

锂离子电容器集流体用穿孔箔的研究进展

Research Progress on Perforated Foil of Electrode Collector for Lithium Ion Capacitor

参考文献