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化学工业与工程

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2006, Vol. 23

Issue (6) :544-549 DOI:

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Progress in High Current Discharge for Lithium Ion Battery

TANG Zhi-yuan,TAN Cai-yuan,CHEN Yu-hong,CUI Yan(School of Chemical Engineering and Technology,Tianjin University,Tianjin 300072,China)

(School of Chemical Engineering and Technology,Tianjin University,Tianjin 300072,China

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Abstract�� High discharge current performance of lithium ion bettery is introduced.Some new materials was summarized and diffusion performance of the lithium ion,particle distribution,grain size,and specific surface area,etc,were analyzed.The influences of SEI and electrolyte conductance was investigated when lithium ion battery was discharged in high current.Besides,researches and designs of the electrode and the battery were proposed for the high discharge current lithium ion battery.

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Received 2006-11-15; published 2006-11-15

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��Զ;̷��Ԩ;��;��;.��ӵ�ش��ŵ��о��չ[J]. ��ѧ��ҵ�빤��, 2006,23(6): 544-549

TANG Zhi-yuan,TAN Cai-yuan,CHEN Yu-hong,CUI Yan.Progress in High Current Discharge for Lithium Ion Battery[J]. Chemcial Industry and Engineering, 2006,23(6): 544-549

[1]	��Ľ�,��º�,��,��.LiCoO2�缫��ӵ��ɢ��[J].��ϴ�ѧѧ��(��Ȼ��ѧ��),2004,35(4):568-572.
[2]	LIANG Hong-ying,QIU Xin-ping,CHEN Hai-long,et al.Analysis of high rate performance of nanoparticled lithiumcobalt oxides prepared in molten KNO3for rechargeablelithium-ion batteries[J].Electrochemistry Communications.2004,6(8):789-794
[3]	��Ľ�,��º�,��,��.LiCoO2��ò��ṹ��绯ѧ��ܵ�Ӱ��[J].��ϴ�ѧѧ��(��Ȼ��ѧ��),2004,35(2):222-227.
[4]	YING Jie-rong,CHANG Yin,WAN Chun-rong.Preparationand characterization of high-density spherical LiCoO2cathode material for lithium ion batteries[J].Journal ofPower Sources.2004,129(2):264-269
[5]	WANG G X,BEWLAY S L,KONSTANTINOV K,et al.Physical and electrochemical properties of doped lithium ironphosphate electrodes[J].Electrochimica Acta,2004,50(2/3):441-445.
[6]	DANIELA Z,MARIA C,SILVERA S,et al.Factor affectingrate performance of undoped LiFePO4[J].ElectrochimicaActa,2004,49(25):4 259-4 271.
[7]	LU Chung-hsin,LIN Shang-wei.Influence of the particle sizeon the electrochemical properties of lithium manganese oxide[J].Journal of Power Sources.2001,97/98:458-460
[8]	FAN Jiang.Studies of 18650 cylindrical cells made withdoped LiNiO2positive electrodes for military applications[J].Journal of Power Sources.2004,138(1/2):288-293
[9]	SHI Li-hong,WANG Qing.Electrochemical performance ofNi-deposited graphite anodes for lithium secondary batteries[J].Journal of Power Sources.2001,102:60-67
[10]	��.��,��,��.�綯��ӵ�ظ��[J].��,2002,32(s1):43-46.
[11]	ZAGHIB K,SONG X,GUERFI A,et al.Purification processof natural graphite as anode for Li-ion batteries:Chemicalversus thermal[J].Journal of Power Sources.2003,119-121(1):8-15
[12]	MITSUHIRO H,KEIKO A,MASAFUMI M,et al.Amorphous titanium oxide electrode for high-rate dischargeand charge[J].Journal of Power Sources.2004,126(1/2):139-143
[13]	SUZUKI,SHINYA,HIBINO,et al.High rate lithiumintercalation properties of V2O5/carbon/ceramic-fillercomposites[J].Journal of Power Sources.2003,124(2):513-517
[14]	��,��Ź�,�Ŵ��.�л��ܼ��ӵ��ܵ�Ӱ��[J].��,2004,34(1):30-32.
[15]	YUKIO S,MINORU H,SATOSHI S,et al.Application tolithium battery electrolyte of lithium chelate compound withboron[J].J Power Sources.2001,97/98:561-565
[16]	XU Zhong-yu,ZHENG Hong-he.Research progress oncompatibility of electrolyte with carbon negative electrode inlithium ion batteries[J].Chinese Journal of Power Sources,2000,24(5):295-301.
[17]	ׯȫ��,��ɽ,��Ԫ,��.��ӵ��л��Һ�о�[J].�绯ѧ,2001,7(4):403-412.
[18]	Ф��,��ƽ,���,��.��ӵ�ض�Ԫ��Һ�ĵ絼��Ϊ�о�[J].��,2004,34(4):270-272.
[19]	PANKAJ A,MARC D,ANTONI S,et al.Comparisonbetween computer simulations and experimental data forhigh-rate discharges of plastic lithium-ion batteries[J].Journal of Power Sources.2000,88(2):219-231
[20]	��,�⾧Ө,���,��.��ظ߱��ʷŵ��о�[J].��Դ��,2003,27(s1):201-204.