Influence of bilayer resist processing on p-i-n OLEDs: Towards multicolor photolithographic structuring of organic displays

Krotkus, Simonas, Nehm, Frederik, Janneck, Robby, Kalkura, Shrujan, Zakhidov, Alex A., Schober, Matthias, Hild, Olaf R., Kasemann, Daniel, Hofmann, Simone, Leo, Karl, Reineke, Sebastian

14 August 2019

Recently, bilayer resist processing combined with development in hydro uoroether (HFE) solvents has been shown to enable single color structuring of vacuum-deposited state-of-the-art organic light-emitting diodes (OLED). In this work, we focus on further steps required to achieve multicolor structuring of p-i-n OLEDs using a bilayer resist approach. We show that the green phosphorescent OLED stack is undamaged after lift-off in HFEs, which is a necessary step in order to achieve RGB pixel array structured by means of photolithography. Furthermore, we investigate the in uence of both, double resist processing on red OLEDs and exposure of the devices to ambient conditions, on the basis of the electrical, optical and lifetime parameters of the devices. Additionally, water vapor transmission rates of single and bilayer system are evaluated with thin Ca film conductance test. We conclude that diffusion of propylene glycol methyl ether acetate (PGMEA) through the uoropolymer film is the main mechanism behind OLED degradation observed after bilayer processing.

info:eu-repo/classification/ddc/620

ddc:620

Helical Bilayer Nonbenzenoid Nanographene Bearing a [10]Helicene with Two Embedded Heptagons

Yang, Lin, Ju, Yang-Yang, Medel, Miguel A., Fu, Yubin, Komber, Hartmut, Dmitrieva, Evgenia, Zhang, Jin-Jiang, Obermann, Sebastian, Campaña, Araceli G., Ma, Ji, Feng, Xinliang

22 April 2024

The precision synthesis of helical bilayer nanographenes (NGs) with new topology is of substantial interest because of their exotic physicochemical properties. However, helical bilayer NGs bearing non-hexagonal rings remain synthetically challenging. Here we present the efficient synthesis of the first helical bilayer nonbenzenoid nanographene (HBNG1) from a tailor-made azulene-embedded precursor, which contains a novel [10]helicene backbone with two embedded heptagons. Single-crystal X-ray analysis reveals its highly twisted bilayer geometry with a record small interlayer distance of 3.2 Å among the reported helical bilayer NGs. Notably, the close interlayer distance between the two layers offers intramolecular through-space conjugation as revealed by in situ spectroelectrochemistry studies together with DFT simulations. Furthermore, the chiroptical properties of the P/M enantiomers of HBNG1 are also evaluated by circular dichroism and circularly polarized luminescence.

info:eu-repo/classification/ddc/540

ddc:540