4.1 Article

Determination of layer morphology of rough layers in organic light emitting diodes by X-ray reflectivity

期刊

ENGINEERING REPORTS
卷 5, 期 4, 页码 -

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WILEY
DOI: 10.1002/eng2.12594

关键词

AFM; contrast enhancement; ITO spikes; OLED; x-ray reflection

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X-ray reflectivity (XRR) is a useful tool for investigating thin layers and buried interfaces. However, the roughness of the layers and interfaces limits the accuracy of XRR measurements. This paper focuses on the investigation of indium tin oxide (ITO), a transparent anode material in organic light emitting devices (OLEDs). By adding a smoothing layer to the ITO, it is possible to determine the thickness, roughness, and density of spikes in XRR measurements. The study also shows that a smoothing layer enhances the sensitivity of XRR measurements on rough surfaces.
X-ray reflectivity (XRR) has been proven to be a useful tool to investigate thin layers as well as buried interfaces in stacks built of very thin layers. Nevertheless, x-ray reflectivity measurements are limited by the roughness of the layers and interfaces as the roughness destroys the interference structure, the so-called Kiessig fringes. As investigations of thin layers in organic light emitting devices (OLEDs) are still subject of research and development, the focus of this paper is the investigation of a layer of indium tin oxide (ITO) which serves as transparent anode material in OLEDs. Due to the fabrication process, ITO shows rough surface structures, so-called spikes, hindering the determination of the ITO layer thickness and roughness in XRR measurements. In this paper, it is theoretically and experimentally proven that a smoothing layer on the ITO enables the determination of the buried ITO layer thickness and roughness as well as the density of the spikes. Furthermore, a sputtered aluminum layer (e.g. cathode material) showing spikes in atomic force microscopy covered with a smoothing layer reveals Kiessig fringes allowing the determination of the density of buried spikes. In general, it is shown that a smoothing layer on a rough surface enhances the sensitivity of x-ray reflectivity measurements.

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