Abstract
The characteristics of organic electrolyte solutions and its influences on the ion conductivity are summarized. The chemistry and electrochemistry of organic electrolyte solutions and characteristics of ordinary organic solvents are introduced. Progresses in studies of organic electrolyte solutions such as electrolyte salts, organic solvents, additives in recent years are reviewed, current situation of the studies of organic electrolyte solutions were also discussed.
Keywords
Li ion batteries, Organic electrolyte solutions, Electrolyte salts, Conductivity additives
Publication Date
2001-11-28
Online Available Date
2001-11-28
Revised Date
2001-11-28
Received Date
2001-11-28
Recommended Citation
Quang chao ZHUANG, Shan WU, Wen yuan LIU, Zhao-da Lu.
The Research of Organic Electrolyte Solutions for Li-Ion Batteries[J]. Journal of Electrochemistry,
2001
,
7(4): Article 12.
DOI: 10.61558/2993-074X.3267
Available at:
https://jelectrochem.xmu.edu.cn/journal/vol7/iss4/12
References
[1] XuZhong yu,ZhengHong he.Researchprogressoncompatibilityofelectrolytewithcarbonnegativeelectrodeinlithiumionbatterise[J].ChineseJournalofPowerSources,2000,24(5):295~301.
[2] MakotoUe,ShoichiroMori.Mobilityandionicassociationoflithiumsaltsinapropylenecarbonate ethy1methy1carbonatemixedsolvent[J].J.Electrochem.Soc.,1995,142(8)2577~2581.
[3] WangJiqiang.Technicaladvance,applicationsandmarketprospectsoflithiumionrechargeablebatteries[J].ChineseJournalofPowerSources,1996,20(4):147~151.
[4] AbrahamKM .Directionsinlithiumbatteryresearchanddevelopment[J].ElectrochimiActa.1993.38(9),1233~1248.
[5] GeorgeE .Blomgren.Electrolytesforadvanedbatteries[J].JournalofPowerSources,1999,8182:112~118.
[6] DahnJR ,VonSackenU ,JuzkowMW ,etal.RechargeableLiNO2/carboncells[J].J.Electrochem.Soc.,1991,138(8):2207~2211.
[7] ShoichiroMori,HitoshiAsahina,HitoshiSuzuki,etal.Chemicalpropertiesofvariousorganicelectrolytesforlithiumrechargeablebatteries1.Characterizationofpassivatinglayerformedongraphiteinalkylcabonateso lution[J].JournalofPowerSources,1997,68:59~64.
[8] XuZhong yu,ZhengHong he.Researchprogressoncompatibilityofelectrolytewithcarbonnegativeelectrodeinlithiumionbatteries[J].ChineseJournalofSources,2000,24(3):171~177.
[9] AurbachD ,MarkovskyB ,LeviMD ,etal.Newinsightsintotheinteractionsbetweenelectrodematerialsandelectrolytesolutionsforadvancednonaqueousbatteries[J].JournalofPowerSources,1999,8182:95~111.
[10] DoronAurbach,YairEinEli,BorisMarkovsky,etal.ThestudyofelectrolytesolutionsbasedonEthleneanddiethylcarbonatesforrechargeableLibatteries[J].J.Electrochem.Soc.,1995,142(9):2882~2890.
[11] AurbachD ,DorouxML ,FaguyPW ,etal.Identificationofsurfacefilmsformedonlithiuminpropylenecarbonatesolutions[J].J .Electrochem.Soc.,1987,134(7):1611~1620.
[12] FelixJoho,PetrNovak.SNIFTIRinvestigationoftheoxidativedecompositionoforganic carbonate basedelectrolytesforlithium ioncells[J].ElectrochimicaActa,2000,45:3589~3599.
[13] DoronAurbach,ArieZaban,YosefGofer,etal.Recentstudiesofthelithium liquidelectrolyteinterfaceelectrochemical,morphologicalandspectralstudiesofafewimportantsystems[J].JournalofPowerSources,1995,54:76~84.
[14] TheveninJG ,MullerRH .Impedanceoflithiumelectrodeinaprogylenecarbonateelectrolyte.J .Elec trochem.Soc.,1987,134:273~280.
[15] WuShenghui,YouJinkua,LinZugeeng.Studyoncarbonnegativeelectrodeforlithiumionbatteries[J].ChineseJournalofPowerSources,1998,22(1):35~39.
[16] DengZhao yang,ZhouZhi cai,PengZhong dong,etal.Investigationofheat treatedpetroleumcokesasnegativeelectrodeforlithiumionbatteries[J].ChineseJournalofPowerSources,2000,34(3):135~138.
[17] YoshidaH ,FukunagaT ,HazamaT ,etal.Degradationmehanismofalkylcarbonatesolventsusedinlithi um ioncellsduringinitialcharging[J].JournalofPowerSources,1997,68:311~315.
[18] TobishimaSI ,HayashiK ,NemotoY ,etal.Influenceofthecompositionofternarymixedsolventelec trolytesonpropertiesofrechargeablelithiumcells[J].JournalofAppliedElectrochemistry,1997,27:902~907.
[19] CapigliaC ,SaitoY ,KageyamaH ,etal.17Liand19Fdiffusioncoefficientsandthermalpropertiesofnon aqueouselectrolytesolutionsforrechargeablelithiumbatteries[J].JournalofPowerSouces,1999,8182:859~892.
[20] GuyomardD ,TarasconJM .HighvoltagestableliquidelectrolytesforLi1+xMn2O4/carbonrocking chairlithiumbatteries[J].JournalofpowerSouces,1995,54:92~98.
[21] YukioSasaki,MamoruHosoya,MinoruHanda.Lithiumcyclingeffciencyofternarysolventelectrolyteswithethylenecarbonate dimethylcarbonatemixture[J].JournalofPowerSources.1997,68:492~496.
[22] TobishimaS ,ArakawaM ,HiraiT ,etal.USPatent:4737424,1988.
[23] TobishimaS ,KatsuyaHayashi,SaitoK ,etal.Ethylenecarbonateternarymixedsolventeletrolytesofrechargeablelithiumbatteries[J].ElectrochimicaActa,1995,40(5):537~544.
[24] FusajiKita,AkiraKawakami,JinNie,etal.Onthecharacteristicsofelectrolyteswithnewlithiumimidesalts[J].JournalofPowerSources,2000,68:307~310.
[25] WangHsienMing,YasakawaHideki,etal.Electrolytesforsecondarylithiumbatteriesandthebatteries[P].JPNo.200040524.Feb.8,2000.
[26] Holcomb,NelsonR ,PaulGNixon,etal.SynthesisofLiCH (SO2CF3)2 andIonicconductiovityofployether saltcomplexes[J].Electrochem.Soc.,1996,143(4):1297~1300.
[27] GaoFeng,BarkerJeremy,LiuPeikang.Thermallystable,highlyconductivesalt[P]USPat.No.6015639,Jan.18,2000.
[28] SasakiSachio,YamaguchiHiroyuki.Organiclithiumphosphate,itsmanufacture,andlow non aqueuselec trolyteandsecondarynon aqueouselectrolytelithiumbatteryusingit[P].JPNo.99335382,Dec.7,1999.
[29] TobishimaShinichi,HayashiKatsuya,YamkiJunichi.Lithiumsecondarybatterieswithnon aqueouselec trolytes[P].JPNo.0750174,Feb.21,1995.
[30] YokoyamaKeiichi,SasanoTakako,HiwaraAkio.Fluorine substitutedcycliccarbonateelectrolyticsolutionsandbatterycontainingthesame[P].USPat.No.6010806,Jan.4,2000.
[31] YokoyamaKeiichi,HiwaraAkio.FujitaAkio,etal.Carbonatecompounds,non aqueouselectroyticsolutionsandbatteriescomprisingnon aqueouselectrolyticsolutions[P].US .Pat.No.5847188,Dec.8,1998.
[32] Ein lliy,ThomasSR ,KochVR ,etal.NewelectrolyteforLi ionbattary[J].J .Electrochem.Soc.,1996,143:L195~197.
[33] UrbarchD ,EinEliY ,ChusidO .ThecorrelationbetweenthesurfacechemistryandtheperformanceofLi/cabonintercalationanodesforrechargeable“rocking chair”typebatteries[J].J .Electrochem.Soc.,1994,141:603~610.
[34] ShuZhiX ,McmillanRoderickS ,MurrayJohnJ .Electrolyteforasecondarycell[P]USPat.No.5529859.June25,1996.
[35] NajiA ,GhanbajaJ ,WillmannP ,etal.Newhalogenateadditivestopopylenecarbonate basedelectrolytesforlithium ionbatteries[J].ElectrochimicaActa,2000,45:1839~1899.
[36] HerlemG ,FahysB .N Butylamineassolventforlithiumsaltelectrolytes,structureandpropertiesofconcen tratedsolutions[J].ElectrochimActa,1996,41:2753~2759.
[37] HoriuchiHiroshi,TsutsumiMasami,WatanabeIsao,etal.Nonaqueouselectrolyteforlithiumsecondarybattery[P].JPNo.10064584A .19980306.
[38] ShuZX ,McmillanRS ,MurrayJJ ,etal.Effectsof12crown4ontheelectrochemicalintercalationoflithi umintographite[J].J .Appl.Electrochem.,1996,41:2753~2759.
[39] AurbachD ,WeissmanI ,ZabanA ,etal.OntheroleofwatercontaminationinrechargeableLibatteries[J].ElectrochimicaActa,1999,45:1135~1140.
[40] StuxArnoldM ,BarkerTeremy.Additivesforinhibitingdecompositionoflithiumsaltsandelectrolytescon tainingsaidadditives[P].USPat.No.5707760,Jan.13,1998
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