Study of exciton transfer in dense quantum dot nanocomposites

Burak Guzelturk; Pedro Ludwig Hernandez-Martinez; Vijay Kumar Sharma

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Study of exciton transfer in dense quantum dot nanocomposites

机译：密集的量子点的激子转移的研究纳米复合材料

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Nanocomposites of colloidal quantum dots (QDs) integrated into conjugated polymers (CPs) are key to hybrid optoelectronics, where engineering the excitonic interactions at the nanoscale is crucial. For such excitonic operation, it was believed that exciton diffusion is essential to realize nonradiative energy transfer from CPs to QDs. In this study, contrary to the previous literature, efficient exciton transfer is demonstrated in the nanocomposites of dense QDs, where exciton transfer can be as efficient as 80% without requiring the assistance of exciton diffusion. This is enabled by uniform dispersion of QDs at high density (up to ~70 wt%) in the nanocomposite while avoiding phase segregation. Theoretical modeling supports the experimental observation of weakly temperature dependent nonradiative energy transfer dynamics. This new finding provides the ability to design hybrid light-emitting diodes that show an order of magnitude enhanced external quantum efficiencies.

机译：纳米复合材料的胶体量子点(量子点)集成到共轭聚合物(CPs)是关键混合光电子学,工程激子的相互作用是在纳米尺度上至关重要的。相信激子扩散至关重要实现从CPs非辐射的能量转移量子点。文学、高效激子转移在量子点密度的纳米复合材料,激子转移可作为有效的80%不需要激子的援助扩散。量子点的密度很高(~ 70 wt %)纳米复合材料,同时避免相隔离。理论建模支持实验观察弱依赖于温度的非辐射的能量转移动力学。找到能够设计混合发光二极管显示订单的级增强外部量子效率。

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《Nanoscale》 |2014年第19期|11387-11394|共8页
作者
Burak Guzelturk; Pedro Ludwig Hernandez-Martinez; Vijay Kumar Sharma;
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作者单位

Department of Electrical and Electronics Engineering, Department of Physics, Department of Chemistry, and UNAM-National Nanotechnology Research Center, Institute of Materials Science and Nanotechnology, Bilkent University, Ankara, TR-06800, Turkey;

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正文语种英语
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关键词
Nonradiative energy transfer; Dense; ExcitonQuantum efficiencyQuantum dotscounts per secondexperimental observationNanocomposites;

机译：非辐射的能量转移;密度;ExcitonQuantumefficiencyQuantum dotscounts每secondexperimental observationNanocomposites;

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Study of exciton transfer in dense quantum dot nanocomposites

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