机构地区:[1]Ministry of Education Key Laboratory of Bioinorganic and Synthetic Chemistry,State Key Laboratory of Optoelectronic Materials and Technologies,School of Chemistry,Sun Yat-Sen University,Guangzhou 510275,China [2]School of Materials Science and Engineering,Sun Yat-Sen University,Guangzhou 510275,China [3]College of Science,Hunan Optical Agriculture Engineering Technology Research Center,Hunan Agricultural University,Changsha 410128,China [4]CQUPT-BUL Innovation Institute,Chongqing University of Posts and Telecommunications,Chongqing 400065,China [5]Engineering Research Center of Electronic Information Materials and Devices(Ministry of Education),Guangxi Key Laboratory of Information Materials,Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials,School of Materials Science and Engineering,Guilin University of Electronic Technology,Guilin 541004,China
出 处:《Nano Research》2023年第1期1586-1594,共9页纳米研究(英文版)
基 金:This work was financially supported by the Joint Funds of the National Natural Science Foundation of China and Yunnan Province(No.U1902222);the National Natural Science Foundation of China(Nos.51961145101 and 52102195);China Postdoctoral Science Foundation(Nos.2020M672960 and 2021M703656);Guangzhou Science&Technology Project(No.202007020005);Hunan High Level Talent Gathering Project(Nos.2019RS1077 and 2020RC5007);the Guangdong Provincial Key Laboratory of Semiconductor Micro Display(No.2020B121202003)。
摘 要:Nowadays,due to uncontrolled synthesis and lack of more direct and systematic evidences,the photoluminescence origin of“zero-dimensional”Cs4PbI6 remains great controversy and the luminescence cannot be controlled.Here we propose a controllable dissolution-recrystallization method to synthesize“emissive”and“non-emissive”Cs4PbI6 nanocrystals(NCs)respectively.Through comparing“emissive”and“non-emissive”Cs4PbI6 NCs,it is clearly proved that the visible emission in“emissive”Cs4PbI6 NCs comes from embedded CsPbI3 quantum dots(QDs).It is found for CsPbI3@Cs4PbI6 nanocomposites,methyl acetate(MeAC)and cyclohexane play an important role in dissolution and recrystallization respectively to obtain Cs4PbI6 matrix and CsPbI3 cores.Benefiting from this two-step method,the as-synthesized CsPbI3@Cs4PbI6 nanocomposites with CsPbI3 QDs uniformly distributed in Cs4PbI6 matrix are bright with photoluminescence quantum yield(PLQY)up to 71.4%and exhibit improved stability than CsPbI3 NCs.Moreover,utilizing its formation mechanism,the size of embedded CsPbI3 QDs can be controlled by reasonable designing the“dissolution”process,so that the luminescence of this CsPbI3@Cs4PbI6 nanocomposites can be adjusted in a wide range from green to red(554–630 nm).Our finding not only provides a novel method for synthesizing tunable“emissive”Cs4PbI6 NCs,but also makes clear the photoluminescence origin of“emissive”Cs4PbI6.
关 键 词:CsPbI3@Cs4PbI6 dissolution-recrystallization NANOCOMPOSITES tunable emission
分 类 号:TB383[一般工业技术—材料科学与工程]
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