Abstract
The extrinsic degradation of organic light emitting diodes (OLEDs) remains a critical issue especially concerning degradation due to exposure to light. Very few studies exist and little is known about the related photodegradation products and mechanisms, responsible for quenching of luminescence. In order to gain insight into the degradation mechanisms caused by light exposure of Alq3 thin films, used successfully as electron transport layer and emissive material in the fabrication of OLEDs, we have monitored UV photodegradation through synchrotron radiation-based photoabsorption and photoemission techniques at the carbon, nitrogen, and oxygen 1s edges as well as at the aluminum 2s and 2p edges. The influence of light exposure was simulated using three different wavelengths, namely 254, 365 and 307 nm, the first two nearly corresponding to absorption maxima in the UV spectrum of Alq3. After exposure all spectra show decrease of the photoabsorption and photoemission signals. However, while irradiation at 307 nm causes lesser changes in the total electron yield NEXAFS spectra, strong spectral modifications are observed for 254 and 365 nm exposures. Core level photoemission measurements from non-irradiated and irradiated Alq3 thin films at 307 nm were also performed. While the Al peaks maintained almost intact, changes in peak intensities as well as shifts for carbon, nitrogen and oxygen are much more dramatic.
Highlights
Due to their applications in many different areas and manufacturing simplicity, organic light emitting diodes (OLEDs) represent a promising research line in the development of new optoelectronic devices.[1]
Among the materials used in OLED fabrication, tris(8-hydroxyquinoline) aluminum (Alq3) is one of the most attractive electroluminescent material, used successfully as electron transport and emissive material in organic devices, and has stimulated many studies focusing in a better comprehension of the degradation processes due to light exposure
PL from both isomers decreases for increasing light exposure time leading to the creation of luminescent quencher in the Alq[3] thin film
Summary
Due to their applications in many different areas and manufacturing simplicity, organic light emitting diodes (OLEDs) represent a promising research line in the development of new optoelectronic devices.[1]. In the present work photoabsorption (NEXAFS, Near-edge X-ray absorption fine structure) and core-level photoemission (XPS, X-ray photoelectron spectroscopy) techniques were employed to investigate the degradation of Alq[3] thin films as a function of UV irradiation.
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