：High-contrast flicker luminescence on dynamic covalent structure based nanoaggregates论文

本文主要研究内容

作者（2019）在《High-contrast flicker luminescence on dynamic covalent structure based nanoaggregates》一文中研究指出：In nanoscience, molecular switches have played a significant role to deliver different control abilities to practical functions,whereas high-contrast luminescence switchable manipulation at nanoscale is still limited. Since the tuning for emission behavior with high contrast ratio strongly connects to numerous visualized sensing and optoelectronic applications, we here report that autonomous p H control can be enrolled to address a high-contrast molecular emission change at the nanoaggregated level, for gaining a flicker luminescence performance in aqueous media. Employing a BODIPY contained dynamic covalent dye, we find its luminescent signal and nanoaggregate size can be spontaneously adjusted in water. On this basis, high-contrast luminescence switching of the material can be achieved upon the alternate introduction of base and acid into the aggregation state. Such a behavior can be attributed to a p H triggered photo-induced electron transfer regulation process. The dye aggregates can be well endocytosed for bioimaging and its luminescent variation can be autonomously displayed as a flicker effect. These results provide new visions for the design and development of smart materials with a dynamic luminescence behavior.

Abstract

In nanoscience, molecular switches have played a significant role to deliver different control abilities to practical functions,whereas high-contrast luminescence switchable manipulation at nanoscale is still limited. Since the tuning for emission behavior with high contrast ratio strongly connects to numerous visualized sensing and optoelectronic applications, we here report that autonomous p H control can be enrolled to address a high-contrast molecular emission change at the nanoaggregated level, for gaining a flicker luminescence performance in aqueous media. Employing a BODIPY contained dynamic covalent dye, we find its luminescent signal and nanoaggregate size can be spontaneously adjusted in water. On this basis, high-contrast luminescence switching of the material can be achieved upon the alternate introduction of base and acid into the aggregation state. Such a behavior can be attributed to a p H triggered photo-induced electron transfer regulation process. The dye aggregates can be well endocytosed for bioimaging and its luminescent variation can be autonomously displayed as a flicker effect. These results provide new visions for the design and development of smart materials with a dynamic luminescence behavior.

论文参考文献

[1].Influence of Yb3+ concentration on the upconversion luminescence of oxyfluoride material doped with Er3+[J]. ZHAO SuLing1,XU Zheng1,WANG LiHui2 & S. Wageh3 1 Institute of Optoelectronic Technology,Key Laboratory of Luminescence and Optical Information (Beijing Jiaotong University),Ministry of Education,Beijing 100044,China; 2 Department of Physics,Chinese People’s Public Security University,Beijing 100038,China; 3 Physics & Engineering Mathematics Department Faculty of Electronic Engineering Menufiya University,Menouf 32952,Egypt. Science China(Physics,Mechanics & Astronomy).2010(02)

[2].Surface modification of up-conversion luminescence material Na[Y0.57Yb0.39Er0.04]F4 with hydrosulfide group[J]. Lili Cui1),Huili Fan1),Junping Xiao1),Xiaowei Xu2),and Dong Su3) 1) Applied Science School,University of Science and Technology Beijing,Beijing 100083,China 2) Materials Science and Engineering School,University of Science and Technology Beijing,Beijing 100083,China 3) Civil & Environment Engineering School,University of Science and Technology Beijing,Beijing 100083,China. Journal of University of Science and Technology Beijing.2008(05)

[3].A novel multifunction material with both electrorheological performance and luminescence property[J]. 陈明星,商艳丽,贾云玲,李俊然. Journal of Rare Earths.2014(11)

[4].A luminescence enhancement approach through Si/O nanostructure[J]. ZHAO Jiong,HUANG ZhiPeng & ZHU Jing Beijing National Center for Electron Microscopy,State Key Laboratory of New Ceramics and Fine Processing,Laboratory of Advanced Materials,Department of Materials Science and Engineering,Tsinghua University,Beijing 100084,China. Science in China(Series E:Technological Sciences).2009(05)

[5].Highly efficient avalanche multiphoton luminescence from coupled Au nanowires in the visible region[J]. WANG Qu-quan (Wuhan University,Wuhan 430072,China). 功能材料信息.2007(05)

[6].Intrinsic luminescence from metal nanostructures and its applications[J]. 张威东,温特,程宇清,赵静怡,龚旗煌,吕国伟. Chinese Physics B.2018(09)

[7].Recent advances in autofluorescence-free biosensing and bioimaging based on persistent luminescence nanoparticles[J]. Qiaosong Lin,Zhihao Li,Quan Yuan. Chinese Chemical Letters.2019(09)

[8].Up-conversion luminescence polarization control in Er3+-doped NaYF4nanocrystals[J]. 张晖,姚云华,张诗按,卢晨晖,孙真荣. Chinese Physics B.2016(02)

[9].Defect aggregates in the Sr2MgSi2O7 persistent luminescence material[J]. Jorma Hls,Taneli Laamanen,Mika Lastusaari,Pavel Novák. Journal of Rare Earths.2011(12)

[10].Upconversion luminescence of Y2O3:Er3+, Yb3+ nanoparticles prepared by a homogeneous precipitation method[J]. 李艳红,张永明,洪广言,于英宁. Journal of Rare Earths.2008(03)

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：High-contrast flicker luminescence on dynamic covalent structure based nanoaggregates论文

本文主要研究内容

Abstract

论文参考文献

论文详细介绍

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