Modification of multiphoton emission properties of single quantum dot due to the long-range coupling with plasmon nanoparticles in thin-film hybrid material

机译：用薄膜杂交材料中的等量子点的多光子发射性能改变薄膜混合材料中的纳米粒子的远程耦合

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Semiconductor quantum dots (QDs) are known for their unique photophysical properties and, in particular, their ability to multiphoton emission caused by recombination of biexcitons. However, the luminescence quantum yield of biexciton states is relatively low due to the fast Auger non-radiative process. Plasmonic nanoparticles can significantly accelerate the radiative rate of QDs. In this study we demonstrate the distance-controlled enhancement of the biexciton emission of single CdSe/ZnS/CdS/ZnS QDs due to their coupling with gold nanorods. We explain this enhancement as the distancedependent trade-off between the energy transfer and the Purcell effect. Our findings constitute a reliable approach to managing the efficiency of multiphoton emission over a wide span of distances.

机译：半导体量子点（QDS）已知其独特的光药性，特别是它们对由Biexcitons的重组引起的多选发射的能力。然而，由于快速的螺旋钻非辐射过程，Biexciton状态的发光量子产量相对较低。等离子体纳米颗粒可以显着加速QD的辐射率。在这项研究中，我们展示了由于与金纳米棒的耦合而引起的距离控制单声道/ ZnS / ZnS QDS的Biexciton发射。我们解释了这种增强，因为能量转移与PURCELL效应之间的差异依存权衡。我们的调查结果构成了一种可靠的方法，可以在广泛的距离上管理多光子发射效率。

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《International Conference on Applications of Optics and Photonics》|2019年|various paging|共6页
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Victor Krivenkov; Pavel Samokhvalov; Ana Sanchez-Iglesias; Marek Grzelczak; Igor Nabiev; Yury Rakovich;
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中图分类光学;
关键词
Polymethylmethacrylate; Thin films; Nanoparticles; Plasmons; Quantum dots; Energy transfer; Luminescence;

机译：聚甲基丙烯酸甲酯;薄膜;纳米颗粒;等级;量子点;能量转移;发光;

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专利

1. Enhancement of Biexciton Emission Due to Long-Range Interaction of Single Quantum Dots and Gold Nanorods in a Thin-Film Hybrid Nanostructure [J] . Victor Krivenkov, Simon Goncharov, Pavel Samokhvalov, Journal of physical chemistry letters . 2019,第3期

机译：薄膜杂交纳米结构中单量子点和金纳米棒的远程相互作用引起的Biexciton发射
2. Transport properties of a single plasmon interacting with a hybrid exciton of a metal nanoparticle-semiconductor quantum dot system coupled to a plasmonic waveguide [J] . Kim Nam-Chol, Ko Myong-Chol, Choe Song-Il, Nanotechnology . 2016,第46期

机译：单等离激元与耦合到等离激元波导的金属纳米粒子-半导体量子点系统的混合激子相互作用的传输性质
3. Strong Modification of Quantum Dot Spontaneous Emission via Gap Plasmon Coupling in Metal Nanoslits [J] . Young Chul Jun, Ragip Pala, Mark L. Brongersma The journal of physical chemistry, C. Nanomaterials and interfaces . 2010,第16期

机译：通过金属纳米缝隙中的等离激元耦合对量子点自发发射的强烈修饰。
4. Modification of multiphoton emission properties of single quantum dot due to the long-range coupling with plasmon nanoparticles in thin-film hybrid material [C] . Victor Krivenkov, Pavel Samokhvalov, Ana Sanchez-Iglesias, International Conference on Applications of Optics and Photonics . 2019

机译：用薄膜杂交材料中的等量子点的多光子发射性能改变薄膜混合材料中的纳米粒子的远程耦合
5. Confocal Microscopy Studies of Fluorescence Blinking of Semiconductor Quantum Dots, Metal Nanoparticle Photogeneration, and Multiphoton Photoemission from Thin Metal Films and Metal Nanoparticles [D] . Baker, Thomas Athanasius 2013

机译：共聚焦显微镜研究半导体量子点的荧光闪烁，金属纳米粒子的光生和金属薄膜和金属纳米粒子的多光子光发射
6. Metallic nanoparticle shape and size effects on aluminum oxide-induced enhancement of exciton-plasmon coupling and quantum dot emission [O] . Waylin J. Wing, Seyed M. Sadeghi, Rithvik R. Gutha, -1

机译：金属纳米颗粒的形状和尺寸对氧化铝诱导的激子-等离子体耦合和量子点发射增强的影响
7. Transport properties of a single plasmon interacting with a hybrid exciton of a metal nanoparticle–semiconductor quantum dot system coupled to a plasmonic waveguide [O] . Nam-Chol Kim, Myong-Chol Ko, Song-Il Choe, 2016

机译：用耦合到等离子体 - 半导体量子点系统的混合激子与等离子体 - 半导体量子点系统相互作用的单位等离子体的运输性能
8. UV Nano-Lights - Nonlinear Quantum Dot-Plasmon Coupling. [R] . Waclawik, E. 2016

机译：紫外纳米灯 - 非线性量子点 - 等离子体耦合。

Modification of multiphoton emission properties of single quantum dot due to the long-range coupling with plasmon nanoparticles in thin-film hybrid material

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