Analysis of thermal performance and charge balance in all-inorganic quantum dot light-emitting devices

IF 1.1 4区 物理与天体物理 Q4 NANOSCIENCE & NANOTECHNOLOGY
S. Rani, J. Kumar
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引用次数: 0

Abstract

Abstract. The quantum dot light-emitting devices (QLEDs) have emerged as a promising candidate for electroluminescent devices due to their excellent optical properties, high efficiency, and tunable bandgaps. The QLEDs with increased and prolonged brightness have potential applications in lighting and display devices. However, the stability of these devices is still a matter of concern, and some factors that affect the luminescence from the device involve electric field and temperature-dependent conduction mechanism. Thermal degradation, quenching within the quantum dots, the design of charge transport layers and the charge balance between them are also some factors that affect the efficacy of these devices. The high working temperature of QLEDs is among the most challenging degradation mechanisms, thus an analysis has been carried out regarding the working temperature within the QLEDs, and the methods to minimize these effects have been studied. Another challenge is achieving charge balance within the device and different device structures have been analyzed to achieve the best results regarding charge balance within the device. A few potential strategies have been suggested to reduce the constraints faced in these electroluminescent devices.
全无机量子点发光器件的热性能及电荷平衡分析
摘要量子点发光器件(qled)由于其优异的光学性能、高效率和可调谐的带隙而成为电致发光器件的一个有前途的候选器件。具有提高和延长亮度的qled在照明和显示设备中具有潜在的应用前景。然而,这些器件的稳定性仍然是一个值得关注的问题,影响器件发光的一些因素涉及电场和温度依赖的传导机制。热降解、量子点内部的猝灭、电荷传输层的设计以及电荷之间的平衡也是影响器件效率的因素。高工作温度是qled最具挑战性的降解机制之一,因此对qled内部的工作温度进行了分析,并研究了最小化这些影响的方法。另一个挑战是实现器件内的电荷平衡,已经分析了不同的器件结构,以实现器件内电荷平衡的最佳结果。已经提出了一些潜在的策略来减少这些电致发光器件所面临的限制。
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来源期刊
Journal of Nanophotonics
Journal of Nanophotonics 工程技术-光学
CiteScore
2.60
自引率
6.70%
发文量
42
审稿时长
3 months
期刊介绍: The Journal of Nanophotonics publishes peer-reviewed papers focusing on the fabrication and application of nanostructures that facilitate the generation, propagation, manipulation, and detection of light from the infrared to the ultraviolet regimes.
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