[1]SeefurthRN ,SharmaRA ,Investigationoflithiumutilizationfromalithium_siliconelectrode[J].J.Elec trochem .Soc .,1977,12 4:12 0 7.
[2 ]WangJ,RaistrickID ,HugginsRA .Behaviorsofsomebinarylithiumalloysasnegativeelectrodesinorganicsolvent_basedelectrolytes[J].J .Electrochem .Soc .,1986 ,133:45 7.
[3]WangJ,KingP ,HugginsRA .InvestigationofbinaryLi_Zn ,Li_Pballoysasnegativeelectrodesinorganicsol vent_basedelectrolyte[J].SolidStateIonics ,1986 ,2 0 :185 .
[4 ]WangJ,RaistrickID ,HugginsRA .Behaviorsofsomebinarylithiumalloysasnegativeelectrodesinorganicsolvent_basedelectrolytes[J].J .Electrochem .Soc .,1986 ,133:45 7.
[5 ]AnaniAA ,BakerSC ,HugginsRA .Investigationofaternarylithiumalloymixed_conductingmatrixelec trodeatambienttemperature[J].J.Electrochem .Soc.,1987,134 :30 98.
[6 ]HugginsRA .Lithiumalloynegativeelectrodesformedfromconvertibleoxides[J].SolidStateIonics,1998,113:5 7.
[7]YangJ,WinterM ,BesenhardJO .SmallparticlesizemultiphaseLi_alloyanodesforlithiumionbatteries[J].SolidStateIonics,1996 ,90 :2 81.
[8]IdotaY ,KubotaT ,MatsufujiA ,etal.Tin_basedamorphousoxide :ahighcapacitylithium_ion_storagematerial[J].Science,1997,2 76 :1395 .
[9]CourtneyIA ,DahnJR .ElectrochemicalandinsituX_raydiffrationstudiesofthereactionoflithiumwithtinoxidecomposites[J].J .Electrochem .Soc .,1997,144 :2 0 45 .
[10 ]LiuWF ,HuangXJ,WangZX ,etal.Studiesonstannicoxideasanodeoflithiumionbattery[J].J .Elec trochem .Soc .,1998,145 :5 9.
[11]CourtneyIA ,DahnJR .KeyfactorscontrollingthereversibilityofthereactionoflithiumwithSnO2 andSn2 BPO6glass[J].J.Electrochem .Soc.,1997,144 :2 943.
[12 ]BrousseT ,RetouxR ,HerterichU ,SchleichDM .Thin_filmcrystallineSnO2 _lithiumelectrodes[J].J .Elec trochem .Soc .,1998,145 :1.
[13]LiH ,HuangXJ ,ChenLQ .StructureandelectrochemicalpropertiesofanodesconsistingofmodifiedSnO[J].J .PowerSources,1999,81_82 :335 .
[14]LiH ,HuangXJ,ChenLQ .Anodesbasedonoxidematerialsforlithiumrechargeablebatteries[J].SolidStateIonics,1999,12 3:189.
[15 ]LiH ,HuangXJ ,ChenLQ .Directimagingofthepassivatingfilmandmicrostructureofnanometer_scaleSnOanodeinlithiumrechargeablebatteries[J].Electrochem .andSolid_StateLett.,1998,1:2 41.
[16 ]LiJZ ,LiH ,WangZX ,etal.TheinteractionbetweenSnOanodeandelectrolytes[J].JPowerSources,1999,81_82 :34 6 .
[17]YangJ ,WachtlerM ,WintersM ,etal.Sub_microcrystallineSnandSn_SnSbpowderaslithiumstoragemateri alsforlithium_ionbatteries[J].Electrochem .andSolid_StateLett.,1999,2 :16 1.
[18]MaoO ,DunlapRA ,CourtneyIA ,etal.InsituMossbauereffectstudiesoftheelectrochemicalreactionoflithiumwithmechanicallyalloyedSn2 Fe[J].J.Electrochem .Soc.,1998,145 :4195 .
[19]MaoO ,TurnerRL ,CourtneyIA ,etal.Active/inactivenanocompositesasanodesforLi_Ionbatteries[J].Electrochem .andSolid_StateLett.1999,2 :3.
[2 0 ]KeplerKD ,VaugheyJT ,ThackerayMM .LixCu6Sn5(0 <13) :AnIntermetallicInsertionElectrodeforRechargeableLithiumBatteriesElectrochem .andSolid_Statelett.,1999,2 :30 7.
[2 1]WangCS ,WuGT ,ZhangXB ,etal.Lithiuminsertionincarbon_siliconcompositematerialsproducedbymechanicalmilling[J].J.Electrochem .Soc.,1998,145 .
[2 2 ]LiH ,HuangXJ,ChenLQ ,etal.Ahighcapacitynano_Sicompositeanodematerialforlithiumrechargeablebatteries[J].Electrochem .andSolid_Statelett.,1999,2 :5 47.
[2 3]LiYD ,DuanXF ,QianYT ,etal.SolvothermalCo_reductionroutetothenanocrystallineIII_Vsemicon ductorInAs[J].J.Am .Chem .Soc.,1997,119:786 9.
[2 4]LiH ,ZhuGY ,HuangXJ,etal.Thesynthesisandelectrochemicalperformanceofdendrite_likenanosizedSnSballoypreparedbyco_precipitationinglycolsolutionatlowtemperature[J].J.Mater .Chem .,2 0 0 0 ,10 :6 93.
[2 5 ]LiY ,LiangY ,XiaoK ,etal.Lasersynthesisandcharacterizationofnano_crystallineSipowder[J].ActaMeta .Sinica ,1995 ,31:B 2 1.
[2 6 ]YuDP ,LeeCS ,BelloI,etal.Synthesisofnano_scalesiliconwiresbyexcimerlaserablationathightempera ture[J].SolidStateCommunications,1998,10 5 :40 3.
[2 7]LiH ,unpublisheddata.
[2 8]LiH ,PH .DThesis,StudyingonAnodeMaterialsandKineticinLithiumIonBattenes[D].Beijing :InstituteofPhysics,ChineseAcademyofScience,1999.
[2 9]BoukampBA ,LeshGC ,HugginsRA .All_solidlithiumelectrodeswithmixedconductormatrix[J].J.Electrochem .Soc,1981,12 8:72 5 .
[30 ]AmezawaK ,YamamotoN ,TomiiN ,ItoY .Single_electrodepeltierheatsofLi_SialloyelectrodesinLiCl_KCleutecticmelt[J].J.Electrochem .Soc .,1998,145 :1986 .
[31]ZhouGW ,LiH ,SunHP ,etal.ControlledLi_dopingofSinanowiresbyelectrochemicalinsertionmethod[J].Appl.Phys.Lett,1999,75 :2 44 7.
[32 ]LiH ,HuangXJ,ChenLQ ,etal.Thecrystalstructuralevolutionofnano_Sianodeduringlithiuminsertionandde_insertion[J].SolidStateIonics,inpress.
[33]MotookaT ,HollandOW ,Amorphizationprocessesinself_ion_implantedSi:dosedependence[J].Appl.Phys.Lett.,1991,5 8:2 36 0 .
[34 ]MotookaT ,HollandOW ,AmorphizationprocessesinionimplantedSi:ionspecieseffects[J].Appl.Phys.Lett.,1992 ,6 1:30 0 5 .
[35 ]TakadaK ,IwamotoK ,KondoS ,Lithiumironsulfideasanelectrodematerialinasolidstatelithiumbattery[J].SolidStateIonics ,1999,117:2 73.
[36 ]StraussE ,GolodnitskyD ,PeledE .Cathodemodificationforimprovedperformanceofrechargeablelithium/compositepolymerelectrolyte_pyritebattery[J].ElectrochemicalandSolid_StateLett.,1999,2 :115 .
[37]EichingerG ,BesenhardJO .Highenergydensitylithiumcells:partII.cathodesandcompletecells[J].J.Electroananl.Chem .,1976 ,72 :1.
[38]GabanoJP ,DechenauxV ,ErbierGG ,etal.D_Sizelithiumcupricsulfidecells[J].J.Electrochem .Soc.,1972 ,119:45 9.
[39]EichingerG ,FrizeHP .Copperbasedelectrodesinorganicelectrolytesoltions_III.ThedischargemechanismofCopper(II)sulphideinsomeorganicsolvents[J].Electrochimica .Acta,1975 ,2 0 :75 3.
[4 0 ]DampierFD .Insolublesulfidepositiveelectrodesfororganicelectrolytelithiumsecondarybatteries[J].J.Electrochem .Soc.,1981,12 8:2 5 0 1.
[4 1]SugimotoT ,ChenS ,MuramatsuA .ColloidssurfacesA :physicochem[J].Eng .Aspects,1998,135 :2 0 7.
[4 2 ]CapuanoF ,CroceF ,ScrosatiB .Compositepolymerelectrolytes[J].J.Electrochem .Soc .,1991,138:1918.
[4 3]WangZX ,HuangBY ,WangSM ,etal.Vibrationalspectroscopicinvestigationofpolyacrylonitrile_basedelectrolyteswithadimethylformamideplasticizer[J].J .Electrochem .Soc.,1997,144:44 .
[44 ]CroceF ,AppetecchiGB ,PersiL ,etal.Nanocompositepolymerelectrolytesforlithiumbatteries[J].Nature,1998,394:45 6 .
[4 5 ]LindenmeyerPH ,HosemannR .Applicationofthetheoryofparacrystalstothecrystalstructureanalysisofpolyacrylonitrile[J].J .Appl.Phys.,196 3,34 :42 .
[4 6 ]NowinskiJL ,LightfootP ,BrucePG .StructureofLiN(CF3 SO2 ) 2 ,anovelsaltforelectrochemistry[J].J.Mater.Chem .,1994,4:15 79.
[4 7]ReyI,JohanssonP ,LindgrenJ,etal.Spectroscopicandtheoreticalstudyof (CF3 SO2 ) 2 N-(TFSI - )and(CF3 SO2 ) 2 NH (HTFSI) [J].J.Phys.Chem .A ,1998,10 2 :32 49.
[4 8]UeM .Ionicradiusof (CF3 SO2 ) 3 C-andapplicabilityofstokeslawtoitspropylenecarbonatesolution[J].J.Electrochem .Soc.,1996 ,143:L2 70 .
[4 9]BrucePG .Coordinationchemistryinthesolidstate[J].Phil.Trans.R .Soc .Lond .A ,1996 ,35 4:415 .
[5 0 ]FerryA ,EdmanL ,ForsythM ,etal.Connectivity,ionicinteractions ,andmigrationinafast_ion_conductingpolymer_in_saltelectrolytebasedonpoly(acrylonitrile)andLiCF3 SO3 [J].J.Appl.Phys.,1999,86 :2 34 6 .
[5 1]CanhamLT .Siliconquantumwirearrayfabricationbyelectrochemicalandchemicaldissolutionofwafers[J].Appl.Phys.Lett.1990 ,5 7:10 46 .
[5 2 ]CullisAG ,CanhamLT .Visiblelightemissionduetoquantumsizeeffectsinhighlyporouscrystallinesilicon[J].Nature,1991,35 3:335 .