Plasmon-enhanced yellow light emission in hybrid nanostructures formed by fluorescent molecules and polymer

Wang P.; Zhao X.; Li B.

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Plasmon-enhanced yellow light emission in hybrid nanostructures formed by fluorescent molecules and polymer

机译：荧光分子和聚合物形成的杂化纳米结构中的等离子体增强黄光发射

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摘要

Two types of hybrid nanostructures were fabricated for surface plasmon-enhanced yellow light emission. One is Ag triangular nanoplates (TNPs) and Rhodamine B (RhB) co-doped poly(methyl methacrylate) (PMMA) structure and the other one is Ag TNPs attached on the surface of RhB-doped PMMA structure. The light emission dependence was investigated as a function of concentration and size of the Ag TNPs. Compared to that of without Ag TNPs, a 13.8-fold enhancement on yellow light emission was obtained by attaching 0.015-nM Ag TNPs on the RhB-doped PMMA layer, while a maximum of 24-fold emission enhancement was obtained by doping 0.015-nM Ag TNPs into the RhB-doped PMMA layer. The hybrid nanostructures would be potentially used as a component of light-emitting devices or solar energy conversion units.

机译：制备了两种类型的杂化纳米结构，用于表面等离激元增强的黄光发射。一种是Ag三角形纳米板（TNP）和若丹明B（RhB）共掺杂的聚甲基丙烯酸甲酯（PMMA）结构，另一种是附着在RhB掺杂的PMMA结构表面的Ag TNP。研究了发光依赖性与Ag TNP的浓度和大小的关系。与没有Ag TNPs相比，通过在RhB掺杂的PMMA层上附着0.015nM Ag TNPs，黄光发射增强了13.8倍，而掺杂0.015nM则获得了24倍的最大发射增强。将Ag TNP掺入RhB掺杂的PMMA层中。杂化纳米结构将潜在地用作发光器件或太阳能转换单元的组件。

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《Nano Energy》 |2012年第1期|共7页
作者
Wang P.; Zhao X.; Li B.;
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正文语种 eng
中图分类能源与动力工程;
关键词
Fluorescent molecules; Hybrid nanostructure; Photoluminescence; Surface plasmon;

机译：荧光分子;杂化纳米结构;光致发光;表面等离激元;

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1. Plasmon-enhanced yellow light emission in hybrid nanostructures formed by fluorescent molecules and polymer [J] . Wang P., Zhao X., Li B. Nano Energy . 2012,第1期

机译：荧光分子和聚合物形成的杂化纳米结构中的等离子体增强黄光发射
2. Quantitative Detection of Visible Light on Hybrid Nanostructures of Two-dimension Porous Conjugated Polymers and Charge-Transfer Complexes by Field Emission [J] . Gao Juan, Li Jiaofu, Xue Zheng, Chemistry, an Asian journal . 2016,第19期

机译：二维多孔共轭聚合物与电荷转移配合物杂化纳米结构上可见光的场发射定量检测
3. High-Performance Hybrid White Organic Light-Emitting Devices without Interlayer between Fluorescent and Phosphorescent Emissive Regions [J] . Ning Sun, Qi Wang, Yongbiao Zhao, Advanced Materials . 2014,第10期

机译：荧光和磷光发射区之间没有中间层的高性能混合白色有机发光器件
4. Plasmon-enhanced emission from single fluorescent proteins [C] . Jessica E. Donehue, Beth L. Haas, Esther Wertz, Plasmonics in biology and medicine X . 2013

机译：单个荧光蛋白的等离子增强发射
5. Plasmon-Enhanced Fluorescent Protein Emission: A New Paradigm for Improved Single-Molecule Bio-Imaging [D] . Donehue, Jessica Erin 2014

机译：等离子体增强荧光蛋白发射：改进的单分子生物成像的新范例。
6. Yellow light emission of Vibrio fischeri strain Y-1: purification and characterization of the energy-accepting yellow fluorescent protein. [O] . S C Daubner, A M Astorga, G B Leisman, 1987

机译：费氏弧菌Y-1菌株的黄光发射：接受能量的黄色荧光蛋白的纯化和表征。
7. Molecular conformation dependent emission behaviour (blue, red and white light emissions) of all-trans-β-carotene-ZnS quantum dot hybrid nanostructures [O] . V. Perumal Devarajan, Devaraj Nataraj, Thangavelu Pazhanivel, 2012

机译：全转β-胡萝卜素 - ZnS杂交纳米结构的分子构象依赖性排放行为（蓝色，红色和白光发射）

Plasmon-enhanced yellow light emission in hybrid nanostructures formed by fluorescent molecules and polymer

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