Optical filters and OLEDs with narrow linewidth and low angle dispersion via strong light-matter coupling

Organic and Hybrid Light Emitting Materials and Devices XXV Pub Date : 2021-08-01 DOI:10.1117/12.2595355
A. Mischok, Sabina Hillebrandt, Seonil Kwon, M. Gather
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Abstract

Organic materials are good absorbers for optical filters and good emitters for OLEDs, largely due to their high oscillator strengths. However, this comes at the cost of broad spectral linewidths, which limits the usefulness of absorptive filters and restricts colour purity in displays. Interference-based structures offer narrower spectra but show an intrinsic and often substantial angle dependence. Here, we overcome these limitations by combining the concepts of absorption and interference. Introducing absorbers into a microcavity leads to a coupled polariton state that inherits the low dispersion of the material exciton and the narrow linewidth of the cavity mode and thus enables line-filters with record spectral discrimination and angular stability (e.g., FWHM 10%, FWHM <20nm, angle shift <10nm @60° tilt).
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通过强光-物质耦合实现窄线宽和低角色散的光学滤光片和oled
有机材料是光学滤光片的良好吸收体和oled的良好发射体,主要是由于它们的高振荡器强度。然而,这是以宽谱线宽度为代价的,这限制了吸收滤光片的有用性,并限制了显示器的颜色纯度。基于干涉的结构提供较窄的光谱,但显示出固有的和经常实质性的角度依赖。在这里,我们通过结合吸收和干扰的概念来克服这些限制。在微腔中引入吸收剂会导致耦合极化态,继承了材料激子的低色散和腔模式的窄线宽,从而使线滤波器具有创纪录的光谱识别和角稳定性(例如,FWHM 10%, FWHM <20nm,角移<10nm @60°倾斜)。
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Organic and Hybrid Light Emitting Materials and Devices XXV
Organic and Hybrid Light Emitting Materials and Devices XXV
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Front Matter: Volume 11808 Light Manipulation of Photonic-Structured OLEDs Perovskite LEDs Directional polarized light emission from thin-film light emitting diodes Blue perovskite light emitting diodes
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