蔡墨朗 - 华北电力大学 - 可再生能源学院

个人简介

蔡墨朗，教授，女，1983年11月生。2013年博士毕业于中科院等离子体物理所(InstituteofPlasmaPhysics,ChineseAcademyofSciences)，2013至2015年于澳大利亚昆士兰理工大学(QueenslandUniversityofTechnology)从事钙钛矿太阳能电池的界面电荷传输机制研究。2015至2018年于日本物质材料研究所光伏中心(NationalInstituteforMaterialsScience,Japan)继续从事高效率钙钛矿太阳电池科研工作，期间参与了大采光面积钙钛矿太阳电池1cm2的世界验证效率和首次钙钛矿太阳电池验证模块的设计。申请人以科研骨干身份参与了日本新能源产业的技术综合开发机构（NEDO）以及日本科学技术振兴机构（JST）名下两项大型太阳能电池项目，从高效率钙钛矿电池的器件结构、工作机制的原位探测、界面改性等方面对电池的效率、成本和稳定性等核心问题进行了系统性的探索研究，并取得了一系列重要的研究成果。2018年8月至今在华北电力大学可再生能源学院工作，致力于高性能钙钛矿电池的工艺与材料开发及原位工作机制研究。在《Joule》，《AdvancedScience》，《AdvancedFunctionalMaterials》，《JournalofMaterialsChemistryA》，等国际著名期刊上发表薄膜太阳能电池相关SCI论文39篇，专利4项（2项授权），5篇文章被ESI高被引数据库收录，2篇文章被评为ESI热点论文，SCI总引用次数达＞1600次，H-idex18。受邀担任AdvancedMaterials，AdvancedEnergyMaterials，JPCL，JPCC和PCCP等国际著名期刊的审稿人。目前主持国家重点研发计划课题1项，中央高校基本科研业务费面上项目1项。

研究领域

高性能薄膜太阳能电池的材料与器件设计（Developmentofmaterialsanddevicestructuresforefficientthin-filmsolarcell）宽带隙钙钛矿材料与光伏器件的稳定性机制研究（Stabilitymechanismofwideband-gapperovskitesolarcell）光伏材料与器件的原位性能探测（In-situcharacterizationofphotovoltaicdevices）

近期论文

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[1]ChengLiu#,MolangCai#,YiYang,ZulqarnainArain,YongDing,XiaoqiangShi,PengjuShi,ShuangMa,TasawarHayat,AhmedAlsaedi,JihuaiWu,SongyuanDaiandGuozhongCao,AC60/TiOxbilayerforconformalgrowthofperovskitefilmsforUVstableperovskitesolarcells,JournalofMaterialsChemistryA,2019,7,11086-11094 [2]YunzhaoWu,MingchaoWang,YeTao,KaiZhang,MolangCai*,YongDing*,XuepengLiu,TasawarHayat,AhmedAlsaedi,SongyuanDai*,ElectrochemicallyDerivedGraphene‐LikeCarbonFilmasaSuperbSubstrateforHigh‐PerformanceAqueousZn‐IonBatteries,Adv.Funct.Mater.2019,1907120 [3]PengjuShi,YongDing,*YingkeRen,XiaoqiangShi,ZulqarnainArain,ChengLiu,XuepengLiu,MolangCai*,GuozhongCao,MohammadKhajaNazeeruddin,*andSongyuanDai*TemplateAssistedFormationofHigh-qualityα-phaseHC(NH2)2PbI3PerovskiteSolarCells,Adv.Sci.2019,1901591 [4]XiaoqiangShi,RuochenChen,TingtingJiang,ShuangMa,XuepengLiu,YongDing*,MolangCai*,JihuaiWu,SongyuanDai*,RegulationofInterfacialChargeTransferandRecombinationforEfficientPlanarPerovskiteSolarCells.Sol.RRL.,2019,doi:10.1002/solr.201900198 [5]ShuangMa,YiYang,ChengLiu,MolangCai*,YongDing,*,Zhan’aoTan,PengjuShi,SongyuanDai,*AhmedAlsaedi,TasawarHayat,VerticalBiI3TemplateFeaturedQuasiBulk-HeterojunctionforHighPhotocurrentandLong-TermStableSolarCells,ACSAppl.Mater.Interfaces2019,11,35,32509-32516 [6]PengjuShi,YongDing*,ChengLiu,YiYang,ZulqarnainArain,MolangCai*,YingkeRen,TasawarHayat,AhmedAlsaedi,SongyuanDai*,Advancedpartialnucleationforsingle-phaseFA0.92MA0.08PbI3-basedhigh-efficiencyperovskitesolarcells,Sci.ChinaMater.(2019).https://doi.org/10.1007/s40843-019-1186-4 [7]MolangCai,NobuyukiIshida,XingLi,XudongYang,TakeshiNoda,YongzhenWu,FengxianXie,HiroyoshiNaito,DaisukeFujita,LiyuanHan,ControlofElectricalPotentialDistributionforHigh-PerformancePerovskiteSolarCells,Joule2018,2,296-306 [8]MolangCai,YongzhenWu,HanChen,XudongYang,YinghuaiQiang,LiyuanHan,Cost-PerformanceAnalysisofPerovskiteSolarModules,AdvancedScience2016,1600269((ESIhighlycitedpaper) [9]MolangCai,JohnBell,SongyuanDai,TheLightAttractingEffectofPyridineDerivativesBasedQuasi-SolidElectrolyteinDye-SensitizedSolarCell.JournalofNanoscienceandNanotechnology,2016,16,5770-5775 [10]MolangCai,VincentTiingTiong,TubuxinHreid,JohnBellandHongxiaWang,Efficientholetransportmaterialcompositebasedonpoly(3-hexylthiophene)andbamboo-structurecarbonnanotubesforhighperformanceperovskitesolarcells,JournalofMaterialsChemistryA,2015,3,2784-2793. [11]MolangCai,XuPan,WeiqingLiu,JohnBellandSongyuanDaiSurfacemodificationofTiO2byanionicliquidelectrolyteindye-sensitizedsolarcellsusingamolecularinsulator.RSCadvances,2015,5,33855–33862. [12]MolangCai,XuPan,WeiqingLiu,JiangSheng,SongyuanDai,Multipleadsorptionoftributylphosphatemoleculeatthedyed-TiO2/electrolyteinterfacetosuppressthechargerecombinationindye-sensitizedsolarcell,JournalofMaterialsChemistryA,2013,1,4885-4892 [13]MolangCai,PanX,LiuWQ,HuoZP,ChenHW,ZhangCN,DaiSY,PropertiesandApplicationofDualFunctionPyridinium-basedIonicLiquidinDye-sensitizedSolarCell,CHEMICALJOURNALOFCHINESEUNIVERSITIES-CHINESE2013,34,1697-1702 [14]石田暢之,ツァイモーラン（CaiMolang）,野田武司,藤田大介,韓礼元オペランド電位計測による電荷分離位置の評価:ペロブスカイト太陽電池への応用,表面と真空,2019年62巻1号p.9-14.