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論文名稱: 太陽能電池之材料及製程知識庫系統. 論文名稱(外文):, A Knowledge-Based System for Materials and Processes in Solar Cell Fabrication. 資料載入處理中... 跳到主要內容 臺灣博碩士論文加值系統 ::: 網站導覽| 首頁| 關於本站| 聯絡我們| 國圖首頁| 常見問題| 操作說明 English |FB專頁 |Mobile 免費會員 登入| 註冊 功能切換導覽列 (159.65.142.206)您好！臺灣時間：2021/12/2011:03 字體大小：       ::: 詳目顯示 recordfocus 第1筆/ 共1筆  /1頁 論文基本資料 摘要 外文摘要 目次 參考文獻 電子全文 紙本論文 論文連結 QRCode 本論文永久網址: 複製永久網址Twitter研究生:張雅雯研究生(外文):Ya-wenChang論文名稱:太陽能電池之材料及製程知識庫系統論文名稱(外文):AKnowledge-BasedSystemforMaterialsandProcessesinSolarCellFabrication指導教授:黃文星指導教授(外文):Weng-singHwang學位類別:碩士校院名稱:國立成功大學系所名稱:材料科學及工程學系碩博士班學門:工程學門學類:材料工程學類論文種類:學術論文論文出版年:2009畢業學年度:97語文別:中文論文頁數:144中文關鍵詞:太陽能電池、知識庫外文關鍵詞:knowledge-based、solarcell相關次數: 被引用:4點閱:1173評分:下載:71書目收藏:2 太陽能發電產業發展蓬勃，知識日新月異，為了達到更有效率的學習，一個架構清晰的知識庫有其必要性。

本研究以知識管理為出發點，針對太陽能電池的原理、材料及其製程，建構一太陽能電池知識庫。

並以網頁形式呈現此知識庫。

本研究所建立之知識庫具備分類清晰的架構；首先依太陽能電池的材料區分為矽太陽能電池、化合物半導體太陽能電池、染料敏化太陽能電池、有機高分子太陽能電池。

其中矽太陽能電池又分成矽基太陽能電池及矽薄膜太陽能電池兩種。

化合物半導體太陽能電池又分成二六族碲化鎘太陽能電池、銅銦鎵二硒系列太陽能電池及三五族砷化鎵太陽能電池等三種。

每個不同的分類項目下方依太陽能電池中的結構、材料類別、以及製程等要點分述，最終彙整建構成一個太陽能電池知識庫，並將之以網頁形式呈現。

本研究所建立之知識庫網站具有知識管理之價值，不僅能幫助太陽光電領域初學者瞭解各種太陽能電池中的結構、材料及製程，亦提供太陽光電領域進階人員一個實用的知識庫系統。

而與其他的學習管道比較，本知識庫網站不僅便於增修、更新與擴充，更具備全文檢索功能，為一因應e世代潮流的知識取得管道。

Thereareconstantlynewtechnologiesandinformationgeneratedinthefieldofphotovoltaic.Inordertoextractknowledgeeffectively,weneedaknowledge-basedsystemwithaclearstructure.Inthisthesisresearch,aknowledge-basedsystemformaterialsandprocessesinsolarcellfabricationhasbeenestablishedfromthestandpointofknowledgemanagementanddemonstratedintheformofweb-sites.Aclearstructureisemployedinthisknowledge-basedsystem.Inthefirstlevel,allfilmswereclassifiedintofourcategoriesbasedontheirelectricalproperties:siliconsolarcell,compoundsemiconductorsolarcell,dyesensitizedsolarcellandorganic/polymersolarcell.Inthesecondlevel,siliconsolarcellwasclassifiedintotwoclassesbasedontheirstructures:siliconbasedsolarcellandthinfilmsiliconsolarcell.Compoundsemiconductorwasfurtherclassifiedintothreeclassesbasedontheirmaterials:Cadmiumtelluridesolarcell,CuInGaSe2solarcellandGaAssolarcell.Eachclassatthesecondlevelwasfurtherdividedinaccordancewiththepositions,materials,processes,etc.Arrangingalltheinformation,theknowledge-basedsystemwasestablished.Thesolarcellknowledge-basedsystemhasthevalueofknowledgemanagement.Itcannotonlyhelpthebeginnersbutalsomoreexperiencedengineersinthefieldofsolarphotovoltaic.Comparewithotherwaysofknowledgeacquisition,thisknowledge-basedsystemiseasiertobemodifiedandupdated.ItalsohasaSite-searchfunctiontoenhanceitsvalue. 目錄中文摘要IABSTRACTII致謝III目錄V第一章緒論11.1研究動機與目的11.2研究內容與架構21.3研究流程3第二章文獻回顧72.1無機太陽能電池元件運作原理72.1.1基本太陽能電池的運作原理72.1.2決定太陽能電池的效能的因素82.2太陽能電池實際設計考量11第三章知識庫系統的架構173.1矽太陽能電池173.1.1矽基太陽能電池173.1.1.1基板183.1.1.1.1太陽能級多晶矽原料製造技術193.1.1.1.2太陽能級矽單晶片製造技術223.1.1.1.3多晶矽晶片製造技術253.1.1.1.1.1鑄造多晶矽錠263.1.1.1.1.2薄板多晶矽片製造技術273.1.1.2表面粗糙化結構303.1.1.3p-n二極體313.1.1.3.1磷擴散製程323.1.1.3.2邊緣絕緣處理333.1.1.4抗反射層343.1.1.5電極363.1.2薄膜矽太陽能電池383.1.2.1薄膜結晶矽太陽能電池393.1.2.1.1光線留滯結構403.1.2.1.2p-n薄膜433.1.2.1.2.1薄膜沉積技術433.1.2.1.2.2薄膜晶粒改善技術463.1.2.2薄膜非晶矽太陽能電池503.1.2.2.1TCO533.1.2.2.2p-i-n薄膜533.1.2.2.2.1非晶矽的原子結構與特性543.1.2.2.2.2PECVD（PlasmaEnhancedCVD）553.1.2.2.2.3HWCVD（HotWireCVD）573.1.2.2.2.4合金膜的形成573.2化合物半導體太陽能電池583.2.1三五族太陽能電池583.2.1.1Ge電池603.2.1.2GaAs電池603.2.1.3GaInP電池613.2.1.4隧道結（TunnelJunction）623.2.2二六族碲化鎘太陽能電池633.2.2.1p-n薄膜643.2.2.1.1物理氣相沉積法653.2.2.1.2密閉空間昇華法663.2.2.1.3氣相傳輸沉積法673.2.2.1.4電化學沉積法673.2.2.1.5噴塗沉積法673.2.2.1.6有機金屬化學氣相沉積法683.2.2.1.7網印沉積法683.2.2.2背面電極683.2.3銅銦鎵二硒系列太陽能電池693.2.3.1電極703.2.3.2p-type薄膜713.2.3.2.1CuInGaSe2及CuInSe2713.2.3.2.2二階段共同蒸鍍723.2.3.2.3三階段共同蒸鍍733.2.3.2.4硒化法743.2.3.3n-type薄膜753.2.3.3.1化學槽水域法763.3染料敏化太陽能電池763.3.1染料敏化太陽能電池的發電原理783.3.2多孔洞TiO2光導電極793.3.3染料光敏化劑823.3.4電解質853.3.5輔助電極873.4有機/高分子太陽能電池883.4.1有機/高分子太陽能電池的工作原理893.4.2有機/高分子太陽能電池的演進913.4.2.1單層結構913.4.2.2電子予體/受體雙層異質接面結構923.4.2.3電子予體摻混受體單層異質接面結構923.4.2.4高分子摻混無機半導體奈米材料之單層異質接面結構943.4.3常用於製作有機/高分子太陽能電池的材料96第四章知識庫系統操作介面的設計1164.1網頁設計的軟體工具1164.2美工與影像處理118第五章使用範例1245.1利用主選單1245.2利用全文檢索功能124第六章總結132第七章未來工作134參考文獻135 參考文獻1.經濟部能源委員會,“太陽電池”,替代能源技術專輯,1990.2.SzeS.M.,“SemiconductorDevicesphysicsandtechnology”,Wiley.NewYork,1985.3.LuqueA.,“PhysicalLimitationtoPhotovoltaicEnergyConversion”,IOPPress,Philadelphia,1990.4.黃建昇,“結晶矽太陽電池發展現況”,工業材料雜誌,Vol.203,pp.50-155,2003.5.EndroesA.,“Mono-andtri-crystallineSiforPVapplication”,Proc.E-MRS2001SpringMeeting,SymposiumEonCrystallineSiliconSolarCells,SolarEnergyMaterialsamdSolarCells,Vol.72,pp.109-124,2002.6.JesterT.,“Crystallinesiliconmanufacturingprogress”,ProgressPhotovolt:ResearchApplication,Vol.10,pp.99-106,2002.7.FerrazzaF.,“Largesizemulticrystallinesiliconingots.”ProceedingsE-MRS2001SpringMeeting,SymposiumEonCrystallineSoliconSolarCells,SolarEnergyMaterialsandSolarCells,Vol.72,pp.77-81,2002.8.DurandF.,“Electromagneticcontinuouspullingprocesscomparedtocurrentcastingprocesseswithrespecttosolidificationcharacteristics”,ProceedingsOftheE-MRS2001SpringMeeting,SymposiumEonCrystallineSiliconSolarCells,SolarEnergyMaterialsandSolarCells,Vol.72,pp.125-132,2002.9.KaleisJ.,“Siliconribbonsandfoils–stateoftheart”,ProceedingsOftheE-MRS2001SpringMeeting,SymposiumEonCrystallineSiliconSolarCells,SolarEnergyMaterialsandSolarCells,Vol.72,pp.139-153,2002.10.MeyerD.L.,JessupJ.A.,HackeP.,GranataS.J.,IshikawaN.andEmotoM.,“Productionofthin(70-100μm)crystallinesiliconcellsforconformablemodules”,Proceedings29thIEEEphotovoltaicSpecialistsConference,NewOrleans,pp.110,2002.11.HanokaJ.,“PVMatcontributiontowardsEvergreenSolar’snewfactory”,Proceedings29thIEEEphotovoltaicSpecialistsConference,NewOrleans,pp.66,2002.12.SchoneckerA.,LaasL.,GutjahrA.andWyersP.,“Ribbongrowth-on-substrate:progressinhighspeedcrystallinesiliconwafermanufacturing”,Proceedings29thIEEEphotovoltaicSpecialistsConference,NewOrleans,pp.316,2002.13.KingD.L.andBuckM.E.,“ExperimentalOptimizationofanAnisotropicEtchinProcessfoeRandomTexturizationofSiliconSolarCells”,Proceedings22ndIEEEPhotovoltaicSpecialistsConference,pp.303-308,1991.14.KingR.R.,SintonR.A.andSwansonR.M.,“StudiesofDiffusedPhosphorusEmitters:SaturationCurrent,SurfaceRecombinationVelocity,andQuantumEfficiency”,IEEETransactionsOnElectron.Devices,Vol.ED-37,pp.365-371,1990.15.林明獻,“太陽電池技術入門”,全華圖書股份有限公司,2008.16.GoetzbergerA.,“OpticalConfinementinThinSi-SolarCellsbyDiffuseBackReflectors”,Proceedings15thIEEEPhotovoltaicSpecialistsConference,Orlando,pp.867-870,1981.17.WronskiC.R.andCarlsonD.,“AmorphousSiliconSolarCells.In:PhotoconversionofSolarEnergy”,Vol.3:CleanElectricityfromPhotovoltaics.ImperialCollegePress,2001.18.KingR.R.,FetzerC.M.,ColterP.C.,EdmondsonK.M.,ErmerJ.H.,Cotal,H.L.,Yoon,H.,Stavrides,A.P.,Kinsey,G.,Krut,D.D.andKaramN.H.,“High-efficiencyspaceandterrertrialmultijunctionsolarcellsthroughbandgapcontrolincellstructures”,Proceedings29thIEEEPhotovoltaicSpecialistsConference,NewOrleans,pp.776-781,2002.19.ContrerasM.A.,RamanathanK.,AbuShamaJ.A.M.,HasoonF.,YoungD.L.,EgaasB.andNoufiR.,“Diodecharacteristicsinstate-of-the-artZnO/CdS/Cu(In1-xGax)Se2solarcells”,ProgressPhotovolt.,Vol.13,pp.209-216,2005.20.ShafarmanW.N.andPhillipsJ.E.,Proceedingsofthe25thIEEEPhotovoltaicSpecialistsConference,WashingtonDC,pp.917-919,1996.21.KargF.H.,“DevelopmentandmanufacturingofCISthinfilmsolarmodule”,SolarEnergyMaterialsandSolarCells,Vol.66,pp.645,2001.22.MickelsenR.A.andChenW.S.,“Developmentofa9.4%efficientthin-filmCuInSe2-CdSsolarcell”,Proceedingsofthe15thIEEEPhotovoltaicSpecialistsConference,800-804,1981.23.GaborA.M.,TuttleJ.R.,AlbinD.S.,ContrerasM.A.,NoufiR.andHermannA.M..,“HighEfficiencyCuInxGa1-xSe2SolarCellsMadeFrom(InxGa1-x)2Se3PrecursorFilms”,AppliedPhysicsLetters,Vol.65,pp.198-200,1994.24.TuttleJ.R.,ContrerasM.A.,TennantA.,AlbinD.andNoufiR.,“High-EfficiencyThin-FilmCu(ln,Ga)Se,-BasedPhotovoltaicDevices:ProgressTowardsAUniversalApproachtoAbsorberFabrication”,Proceedingsofthe23rdIEEEPhotovoltaicSpecialistsConference,NewYork,pp.415-421,1993.25.KushiyaK,OhshitaM,HaraI,TanakaY,SangB,NagoyaY,TachiyukiM.andYamaseO.,“Yieldissueonthefabricationof30cm×30cm-sizedCIGS-basedthin-filmmodules”,SolarEnergyMaterialsandSolarCells,Vol.75(1-2),pp.171-178,2003.26.RomeoA.,TerheggenM.,Abou-RasD.,BatznerD.L.,HaugF.J.,KalinM.,RudmannD.andTiwariA.N.,“Developmentofthin-filmCu(In,Ga)Se-2andCdTesolarcells”,ProgressPhotovolt:ResearchApplication,Vol.12,pp.97,2004.27.劉茂煌,“奈米光電池”,工業材料雜誌,Vol.203,2004.28.NazeeruddinMd.K.,ZakeeruddinS.M.,Humphry-BakerR.,JirousekM.,LiskaP.,VlachopoulosN.,ShkloverV.,FischerC.H.andGratzelM.,“Acid-BaseEquilibriaof(2,2'-Bipyridyl-4,4'-dicarboxylicacid)ruthenium(II)ComplexesandtheEffectofProtonationonCharge-TransferSensitizationofNanocrystallineTitania”,InorganicChemistry”,Vol.38,pp.6298–6305,1999.29.FinnieK.S.,BartlettJ.R.andWoolfreyJ.L.,“Vibrationalspectroscopicstudyofthecoordinationof(2,2’-bipyridyl-4,4’dicarboxylicacid)ruthenium(Ⅱ)complexestothesurfaceofnanocrystallinetitania”,Langmuir,Vol.14,pp.2744–2749,1998.30.BauerC.,BoschlooG.,MukhtarE.andHagfeldtA.,“Interfacialelectron-transferdynamicsinRu(tcterpy)(NCS)3-sensitizedTiO2nanocrystallinesolarcells”,JournalofPhysicalChemistryB,Vol.106,pp.12693–12704,2002.31.ArgazziR.,BignozziC.A.,HeimerT.A.,CastellanoF.N.andMeyerG.J.,“Enhancedspectralsensitivityfromruthenium(II)polypyridylbasedphotovoltaicdevices”,InorganicChemistry,Vol.33,pp.5741–5749,1994.32.FinnieK.,BartlettJ.andWoolfreyJ.,“VibrationalSpectroscopicStudyoftheCoordinationof(2,2'-Bipyridyl-4,4'-dicarboxylicacid)ruthenium(II)ComplexestotheSurfaceofNanocrystallineTitania”,Langmuir,Vol.14,pp.2744–2749,1998.33.NazeeruddinMd.K.,SplivalloR.,LiskaP.,ComteP.andGrätzelM.,“Aswiftdyeuptakeprocedurefordye-sensitizedsolarcells”,Langmuir,Vol.16,pp.8525–8528,2000.34.MurakoshiK.,KanoG.,WadaY.,Yanagida,S.,MiyazakiH.,MatsumotoM.andMurasawaS.,“ImportanceofbindingstatesbetweenphotosensitizingmoleculesandtheTiO2surfaceforefficiencyinadye-sensitizedsolarcell”,JounalofElectroanalyticalChemistry,Vol.396,pp.27–34,1995.35.SayamaK.,SugiharaH.andArakawaH.,“PhotoelectrochemicalpropertiesofaporousNb2O5electrodesensitizedbyarutheniumdye”,ChemistryofMaterials,Vol.10,pp.3825–3832,1998.36.KleinC.,NazeeruddinM.K.,CensoD.D.,LiskaP.andGrätzelM.,“AmphiphilicRutheniumSensitizersandtheirApplicationsinDyeSensitizedSolarCell”,InorganicChemistry,Vol.43,pp.4216–4226,2004.37.BachU.,LupoD.,ComteP.,MoserJ.E.,WeissortelF.,SalbeckJ.SpreitzerH.andGrätzelM.,“Solid-statedye-sensitizedmesoporousTiO2solarcellswithhighphoton-to-electronconversionefficiencies”,Nature,Vol.395,pp.583,1998.38.ReganB.O.andSchwartzD.T.,“LargeenhancementinphotocurrentefficiencycausedbyUVilluminationofthedye-sensitizedheterojunctionTiO2/RuLL'NSC/CuSCN:initiationandpotentialmechanism”,ChemistryofMaterials,Vol.10,pp.1501-1509,1998.39.ReganB.O.andSchwartzD.T.,“Effectdye-sensitizedchargeseparationinawide-band-gapp-nheterojunction”,JournalofAppliedPhysics,Vol.80,pp.4749–4754,1996.40.ReganB.O.andSchwartzD.T.,ZakeeruddinS.M.,andGrätzelM.,“ElectrodepositedNanocompositen-pHeterojunctionsforSolid-.StateDye-SensitizedPhotovoltaics”,AdvancedMaterials,Vol.12,pp.1263–1267,2000.41.GrätzelM.,“Photoelectrochemicalcells”,Nature,Vol.414,pp.338,2001.42.BachU.,LupoD.,MoserJ.E.,WeissortelF.,SalbexkJ.,SpreitzerH.andGrätzelM.,“Solid-statedye-sensitizedmesoporousTiO2solarcellswithhighphoton-to-electronconversionefficiencies”,Nature,Vol.395,pp.583-584,1998.43.UsuiH.,MatsuiH.,TanabeN.andYanagidaS.,“Experimentsonadynamicmodelforthetransformationofcropresidueinsoil”,JournalofPhotochemistryPhotobiologyA:Chemistry,Vol.164,pp.97-101,2004.44.KimaD.W.,JeongY.B.,KimaS.H.,LeeD.Y.andSongJ.S.,“Highefficiencydye-sensitizednanocrystallinesolarcellsbasedonionicliquidpolymergelelectrolyte”,ChemicalCommunications,pp.2972,2002.45.KomiyaR.,HanL.,YamanakaR.,IslamA.andMitateT.,“Effectdye-sensitizedchargeseparationinawide-band-gapp-nheterojunction”,JournalofPhotochemistryPhotobiologyA:Chemistry,Vol.164,pp.123-127,2004.46.LiuY.,HagfeldtA.,XiaoX.andLindquistS.,“Investigationofinfluenceofredoxspeciesontheinterfacialenergeticsofadye-sensitizednanoporousTiO2solarcell”,SolarEnergyMaterialsandSolarCells,Vol.55,pp.267–281,1998.47.HaraK.H.,HoriguchiT.,KinoshitaT.,SayamaK.andArakawaH.,“Influenceofelectrolytesonthephotovoltaicperformanceoforganicdye-sensitizednanocrystallineTiO2solarcells”,SolarEnergyMaterialsandSolarCells,Vol.70,pp.151–161,2001.48.ShaheenS.E.,RadspinnerR.,PeyghambarianN.andJabbourG.E.,”Fabricationofbulkheterojunctionplasticsolarcellbyscreenprinting”,AppliedPhysicalLetters,Vol.79,pp.2996-2998,2001.49.BharathanJ.andYangY.,”Polymerelectroluminescentdevicesprocessedbyinkjetpriting:1.Polymerlightemittinglogo”,AppliedPhysicalLetters,Vol.72,pp.2660-2662,1998.50.BrabecC.J.,PadingerF.,HummelenJ.C.,JanssenR.A.andSariciftciN.S.,“Realizationoflargeareaflexiblefullerene-conjugatedpolymerphotocells:Aroutetoplasticsolarcells”,SyntheticMetals,Vol.102,pp.861-864,1999.51.KallmansH.andPopeM.,“Photovoltaiceffectinorganiccrystals”,JournalofChemicalPhysics,Vol.30,pp.585-586,1958.52.GhoshA.K.andFengT.,“Merocyanineorganicsolarcells”,JournalofAppliedPhysics,Vol.49,pp.5982-5989,1978.53.TangC.W.,“Two-layerorganicphotovoltaiccell”,AppliedPhysicalLetters,Vol.48,pp.183-185,1986.54.YuG.,ZhangC.andHeegerA.J.,“Dual-functionsemiconductingpolymerdeviceslight-emittingandphotodetectingdiodes”,AppliedPhysicalLetters,Vol.64,pp.1540-1542,1993.55.HallsJ.J.M.,PichlerK.,FriendR.H.,MorattiS.C.andHolmesA.B.,“Excitondiffusionanddissociationinapoly(p-phenylenevinylene)/C60heterojunctionphotovoltaiccell”,AppliedPhysicalLetters,Vol.68,pp.3120-3122,1996.56.SariciftciN.S.,SmilowitzL.,HeegerA.J.,WudlF.,“Photoinducedelectrontransferfromaconductingpolymertobuckminsterfullerene”,Science,Vol.258,pp.1474-1476,1992.57.SariciftciN.S.,BraunD.,ZhangC.,SrdanovV.I.,HeegerA.J.,StuckyG.andWudlF.,“Semiconductingpolymer-buckmisterfullereneheterojunctions:Diodes,photodiodes,andphotovoltaiccells”,AppliedPhysicalLetters,Vol.62,pp.585-587,1993.58.YuG.,GaoJ.,HummelenJ.,WudlF.andHeegerA.J.,“Polymerphotovoltaiccells:Enhancedefficienciesviaanetworkofinternaldonor-acceptorheterojunctions”,Science,Vol.270,pp.1789-1791,1995.59.KosterL.J.A.,MihailetchiV.D.andBlomP.W.,“Ultimateefficiencyofpolymer/fullrenebulkheterojunctionsolarcell”,AppliedPhysicalLetters,Vol.88,pp.093511-1-093511-3,2006.60.ScharberM.C.,MuhlbacherD.,KoppeM.,DenkP.,WaldaufC.,HeegerA.J.andBrabecC.J.,“Designrulesfordonorsinbulkheterojunctionsolarcells－Towards10%energyconversionefficiency”,AdvancedMaterials,Vol.18,pp.789-794,2006.61.KwongC.Y.,DjurisicA.B.,ChuiP.C.,ChengK.W.andChanW.K.,“Influenceofsolventonfilmmorphologyanddeviceperformanceofpoly(3-hexylthiophene):TiO2nanocompositesolarcells”,ChemicalPhysicsLetters,Vol.384,pp.372-375,2004.62.BeekW.J.E.,WienkM.M.andJanssenR.A.J.,”Hybridpolymersolarcellbasedonzincoxide”,JournalofMaterialsChemistry,Vol.15,pp.2985-2988,2005.63.HuynhW.U.,DittmerJ.J.andAlivisatosA.P.,“HybridNanorod-PolymerSolarCells”,Science,Vol.29,pp.2425-2427,2002.64.ArangoA.C.,JohnsonL.R.,BliznyukV.N.,Schlesinger,Z.,Carter,S.A.andHörhold,H.,“EfficientTitaniumOxide/ConjugatedPolymerPhotovoltaicsforSolarEnergyConversion”,AdvancedMaterials,Vol.12,pp.1689-1692,2000.65.BartholomewG.P.andHeegerA.J.,“InfiltrationofregioregularPoly-[2,2-(3-hexylthiopene)]intorandomnanocrystallineTiO2networks”,AdvancedFunctionalMaterials,Vol.15,pp.677-682,2005.66.MillironD.J.,GurL.andAlivisatosA.P.,“Hybridorganicnanocrystalsolarcells”,MRSBulletin,Vol.30,pp.41-44,2005.67.vanHalP.A.,WienkM.M.,KroonJ.M.,VerheesW.J.H.,SlooffL.H.,vanGennipW.J.H.,JonkheijmP.andJanssenR.A.J.,“PhotoinducedElectronTransferandPhotovoltaicResponseofaMDMO-PPV:TiO2Bulk-Heterojunction”,AdvancedMaterials,Vol.15,pp.118-121,2003.68.SvenssonM.,ZhangF.,VeenstraS.C.,VerheesW.J.H.,HummelenJ.C.,KroonJ.M.,InganäsO.andAnderssonM.R.,“High-performancepolymersolarcellsofanalternatingpolyfluorenecopolymerandafullerenederivative”,AdvancedMaterials,Vol.15,pp.988-991,2003.69.NazeeruddinMd.K.,Humphry-BakerR.,LiskaP.andGrätzelM.﹐“Investigationofsensitizeradsorptionandtheinfluenceofprotonsoncurrentandvoltageofadye-sensitizednanocrystallineTiO2solarcell”JournalofPhysicalChemistryB,Vol.107,pp.8981–8987,2003.70.王永福,“Joomla架站123--圖解入門很簡單”,��峯資訊股份有限公司,2007.71.林季嫻,“Joomla圖解架站實例應用”,博碩文化股份有限公司,2008. 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