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1、PROGRESSINPHOTOVOLTAICS:RESEARCHANDAPPLICATIONSProg.Photovolt:Res.Appl.2003;11:535541(DOI:10.1002/pip.516)ResearchSHORTCOMMUNICATIONImprovedPerformanceinZnO/CdS/CuGaSe2Thin-FilmSolarCellsz,yDavidL.Young*,JamesKeane,AnnaDuda,JehadA.M.AbuShama,CraigL.Perkins,ManuelRomeroandRomm
2、elNoufiNationalRenewableEnergyLaboratory,1617ColeBovlevard.,Golden,CO80401,USAWereportthegrowthandcharacterizationofimprovedefficiencywide-bandgapZnO/CdS/CuGaSe2thin-filmsolarcells.TheCuGaSe2absorberthicknesswasintention-allydecreasedtobettermatchdepletionwidthsindicatedbydrive-
3、levelcapacitanceprofilingdata.Atotal-areaefficiencyof9�5%wasachievedwithafillfactorof70�8%andaVocof910mV.Publishedin2003byJohnWiley&Sons,Ltd.keywords:coppergalliumdiselenide;CuGaSe2;thin-filmsolarcell;solarconversioneffi-ciency;photovoltaicsINTRODUCTIONecently,improvedefficienciesf
4、orCdS/CuIn1�xGaxSe2solarcellshavebeenreportedforx�0�312(Egap�1�1eV)compositionandforx¼0(Egap�0�95eV)composition.Thesesuccesseshavecapi-Rtalizedoninsightsaboutgrowth-relateddefectsintheCuIn1�xGaxSe2materialsystemduringathree-3stageelementalevaporationprocess.Despitethesesucces
5、ses,higher-bandgap(Egap51�5eV)absorbermaterialsforsolarcellsaredesirablebecauseoftheirhigheropen-circuitvoltage,andlowercurrentsforbettermoduleperformanceandcurrentmatchinginatwo-terminaltandem.However,attemptstoincreasethebandgap(i.e.,increasex)intheCuIn1�xGaxSe2materialsyst
6、emhaveledtolower-than-expectedopen-circuitvoltagesandlower4efficiencies.Oneofthegreatestchallengesforathin-filmtandemdeviceisraisingtheefficiencyofthewide-bandgaptop5,6solarcellfromthecurrent�9%tothe�16%range.TheCuIn1�xGaxSe2materialsystemisoneofthelead-7ingcandidatesforatop-cel
7、labsorberbecauseofitsidealbandgapatx¼1(�1�7eV)andtheknowledgebaseandsuccessofthematerialatx�0�3asasolarcellabsorber.Inthisshortcommunication,wereportimprovedperformanceforawide-bandgappolycrystallineCdS/CuGaSe2(CGS)solarcellwithVoc¼0�910V,FF¼70�8%andatotalareaefficiencyof9�5%.
8、Thehighesteffi-ciencyreportedforapolycrystallinedeviceis8�7%(totalare
