第一作者:孩何MingruiHe,XianZhang,JialiangHuang通訊作者:孩何XiaojingHao,?JinhyeokKim,ShiyouChen,JianjunLi合作單位:新南威爾士大學(xué)���,韓國全南國立大學(xué)�����,華東師范大學(xué),悉尼大學(xué)�,韓國光州科學(xué)技術(shù)院背景介紹銅鋅錫硫硒(CZTSSe)材料由于其低廉的價格,近年來成為薄膜太陽電池研究的熱點�。文章簡介近日,步步新南威爾士大學(xué)XiaojingHao團隊�����,步步韓國全南國立大學(xué)JinhyeokKim團隊和華東師范大學(xué)ShiyouChen團隊通過使用氯化鋰溶后處理CZTSSe吸收層�,實現(xiàn)了更淺的受體型缺陷(LiZn)����,提高了P型摻雜��,將CZTSSe太陽能電池效率提高至10.7%���。然而����,成為差生在合成CZTSSe過程中伴隨著大量晶體缺陷的產(chǎn)生���,進而降低了電池的光電轉(zhuǎn)化效率。
孩何本文通過納米尺度的化學(xué)分析(atom?probetomography),電學(xué)表征分析(admittancespectra)和密度泛函理論(DFT)闡明了Li在CZTSSe摻雜機制���。步步該成果以題為HighEfficiencyCu2ZnSn(S,Se)4SolarCellswithShallowLiZnAcceptorDefectsEnabledbySolution-BasedLiPost-DepositionTreatment發(fā)表在了Adv.?Eng.Mater.上�����。
成為差生圖文導(dǎo)讀圖一Li后處理方法a)-d)LiCl溶液工藝示意圖及Li后處理方法e)未處理的CZTSSe吸收層f)Li摻雜的CZTSSe吸收層圖二Li在電池器件的分布a)CZTSSe和b)鋰摻雜的CZTSSe太陽能電池的元素分布Li在CZTSSe太陽能電池中的3D分布圖圖三電池器件光伏性能a)電池器件的J-V曲線b)電池器件的EQE曲線c)電池器件的帶隙d)電池器件的Drivelevelcapacityprofilinge)電池器件的Suns-Vocf)電池器件的Time-resolvedphotoluminescence圖四缺陷表征a)-b)電池器件的Admittancespectrac)電池器件的Arrheniusplotsd)電池器件的缺陷態(tài)密度圖五理論計算a)不同Li相關(guān)缺陷的形成能b)不同Li相關(guān)缺陷在帶隙的位置c)LiZn?缺陷在晶格的位置文獻鏈接:HighEfficiencyCu2ZnSn(S,Se)4?SolarCellswithShallowLiZn?AcceptorDefectsEnabledbySolution‐BasedLiPost‐DepositionTreatment.?Adv.EnergyMater.?2021,2003783.?https://doi.org/10.1002/aenm.202003783團隊在該領(lǐng)域的相關(guān)文獻推薦1.Li,J.,Huang,Y.,Huang,J.,Liang,G.,Zhang,Y.,Rey,G.,...Green,M.A.(2020).DefectControlfor12.5%EfficiencyCu2ZnSnSe4KesteriteThin‐FilmSolarCellsbyEngineeringofLocalChemicalEnvironment.?AdvancedMaterials,?32(52),2005268.2.Liu,F.,Zeng,Q.,Li,J.,Hao,X.,Ho-Baillie,A.,Tang,J.,Green,M.A.(2020).Emerginginorganiccompoundthinfilmphotovoltaicmaterials:Progress,challengesandstrategies.?MaterialsToday.3.Tang,R.,Wang,X.,Lian,W.,Huang,J.,Wei,Q.,Huang,M.,...Chen,T.(2020).Hydrothermaldepositionofantimonyselenosulfidethinfilmsenablessolarcellswith10%efficiency.?NatureEnergy,?5(8),587-595.4.Zeng,Q.,Lai,Y.,Jiang,L.,Liu,F.,Hao,X.,Wang,L.,Green,M.A.(2020).IntegratedPhotorechargeableEnergyStorageSystem:Next‐GenerationPowerSourceDrivingtheFuture.?AdvancedEnergyMaterials,?10(14),1903930.5.Deng,H.,Zeng,Y.,Ishaq,M.,Yuan,S.,Zhang,H.,Yang,X.,...Tang,J.(2019).Quasiepitaxystrategyforefficientfull‐inorganicSb2S3solarcells.?AdvancedFunctionalMaterials,?29(31),1901720.6.Cui,X.,Sun,K.,Huang,J.,Yun,J.S.,Lee,C.Y.,Yan,C.,...Hao,X.(2019).Cd-FreeCu2ZnSnS4solarcellwithanefficiencygreaterthan10%enabledbyAl2O3passivationlayers.?EnergyEnvironmentalScience,?12(9),2751-2764.7.Liu,X.,Zhang,Y.,Shi,L.,Liu,Z.,Huang,J.,Yun,J.S.,...Hao,X.(2018).ExploringInorganicBinaryAlkalineHalidetoPassivateDefectsinLow‐Temperature‐ProcessedPlanar‐StructureHybridPerovskiteSolarCells.?AdvancedEnergyMaterials,?8(20),1800138.8.Yan,C.,Huang,J.,Sun,K.,Johnston,S.,Zhang,Y.,Sun,H.,...Hao,X.(2018).Cu2ZnSnS4solarcellswithover10%powerconversionefficiencyenabledbyheterojunctionheattreatment.?NatureEnergy,?3(9),764-772.9.Park,J.,Huang,J.,Yun,J.,Liu,F.,Ouyang,Z.,Sun,H.,...Hao,X.(2018).TheRoleofHydrogenfromALD‐Al2O3inKesteriteCu2ZnSnS4SolarCells:GrainSurfacePassivation.?AdvancedEnergyMaterials,?8(23),1701940.10.Gu,Y.,Shen,H.,Ye,C.,Dai,X.,Cui,Q.,Li,J.,...Lin,H.(2018).All‐Solution‐ProcessedCu2ZnSnS4SolarCellswithSelf‐DepletedNa2SBackContactModificationLayer.?AdvancedFunctionalMaterials,?28(14),1703369.11.Liu,F.,Yan,C.,Huang,J.,Sun,K.,Zhou,F.,Stride,J.A.,...Hao,X.(2016).NanoscalemicrostructureandchemistryofCu2ZnSnS4/CdSinterfaceinkesteriteCu2ZnSnS4solarcells.?AdvancedEnergyMaterials,?6(15),1600706.12.Sun,K.,Yan,C.,Liu,F.,Huang,J.,Zhou,F.,Stride,J.A.,...Hao,X.(2016).Over9%efficientkesteriteCu2ZnSnS4solarcellfabricatedbyusingZn1–xCdxSbufferlayer.?AdvancedEnergyMaterials,?6(12),1600046.本文由作者投稿�����。
研究表明�,孩何通過該方法可實現(xiàn)Li在CZTSSe晶界和晶體內(nèi)部的均勻摻雜,并實現(xiàn)10%以上的摻雜效率��。不要給狗狗吃水果的籽或是核:步步象石榴�、荔枝、杏���、李子等等�����,籽多或是核大的水果如果不能把水果的籽兒和核去除���,就不要給狗狗吃。
因為肝含有大量維生素A����,成為差生會引起維生素A中毒。芭樂����、孩何番石榴:不推薦,因為吃了反而會便秘����。
注意含有許多糖分��,步步不宜食用過量�����。一周3個雞肝(或?qū)?yīng)量的其他動物肝臟)左右的量�����,成為差生就會引發(fā)骨骼問題��。