Optical signatures of Förster-induced energy transfer in organic/TMD heterostructures

IF 9.1 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Joshua J. P. Thompson, Marina Gerhard, Gregor Witte, Ermin Malic
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引用次数: 0

Abstract

Hybrid van der Waals heterostructures of organic semiconductors and transition metal dichalcogenides (TMDs) are promising candidates for various optoelectronic devices, such as solar cells and biosensors. Energy-transfer processes in these materials are crucial for the efficiency of such devices, yet they are poorly understood. In this work, we develop a fully microscopic theory describing the effect of the Förster interaction on exciton dynamics and optics in a WSe2/tetracene heterostack. We demonstrate that the differential absorption and time-resolved photoluminescence can be used to track the real-time evolution of excitons. We predict a strongly unidirectional energy transfer from the organic to the TMD layer. Furthermore, we explore the role temperature has in activating the Förster transfer and find a good agreement to previous experiments. Our results provide a blueprint to tune the light-harvesting efficiency through temperature, molecular orientation and interlayer separation in TMD/organic heterostructures.

Abstract Image

Abstract Image

有机/TMD 异质结构中福斯特诱导能量转移的光学特征
有机半导体和过渡金属二卤化物(TMDs)的混合范德华异质结构是太阳能电池和生物传感器等各种光电设备的理想候选材料。这些材料中的能量转移过程对此类器件的效率至关重要,但人们对其了解甚少。在这项研究中,我们建立了一个完全微观的理论,描述了福斯特相互作用对 WSe2/ 四碳烯异质叠层中激子动力学和光学的影响。我们证明了微分吸收和时间分辨光致发光可用于跟踪激子的实时演化。我们预测从有机层到 TMD 层的能量传递具有很强的单向性。此外,我们还探讨了温度在激活佛斯特转移中的作用,并发现这与之前的实验结果非常吻合。我们的研究结果为通过温度、分子取向和 TMD/有机异质结构中的层间分离来调节光收集效率提供了一个蓝图。
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来源期刊
npj 2D Materials and Applications
npj 2D Materials and Applications Engineering-Mechanics of Materials
CiteScore
14.50
自引率
2.10%
发文量
80
审稿时长
15 weeks
期刊介绍: npj 2D Materials and Applications publishes papers on the fundamental behavior, synthesis, properties and applications of existing and emerging 2D materials. By selecting papers with the potential for impact, the journal aims to facilitate the transfer of the research of 2D materials into wide-ranging applications.
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