Synthesis and Studies of Materials for Organic Light-Emitting Diodes

Perez-Bolivar, Cesar A.

14 August 2010

No description available.

Chemistry

Materials Science

OLEDs

synthesis

Alq3 derivatives

High-triplet energy

room-temperature phosphorescence

Optimizing the Discovery and Processability of Biologically Derived Molecular Glass Host Materials for Photonic Applications

Flynn, John J.

22 June 2020

No description available.

Physical Chemistry

Electromagnetics

Materials Science

Optics

Long-Lifetime Materials

Room Temperature Phosphorescence

Steroid Host Guest

Donor-Acceptor Chromophores

Molecular Glass

Differential Scanning Calorimetry

Lithocholic Acid

Accurate wavelength tracking by exciton spin mixing

Kirch, Anton, Bärschneider, Toni, Achenbach, Tim, Fries, Felix, Gmelch, Max, Werberger, Robert, Guhrenz, Chris, Tomkevičienė, Aušra, Benduhn, Johannes, Eychmüller, Alexander, Leo, Karl, Reineke, Sebastian

06 June 2024

Wavelength-discriminating systems typically consist of heavy benchtop-based instruments, comprising diffractive optics, moving parts, and adjacent detectors. For simple wavelength measurements, such as lab-on-chip light source calibration or laser wavelength tracking, which do not require polychromatic analysis and cannot handle bulky spectroscopy instruments, lightweight, easy-to-process, and flexible single-pixel devices are attracting increasing attention. Here, a device is proposed for monotonously transforming wavelength information into the time domain with room-temperature phosphorescence at the heart of its functionality, which demonstrates a resolution down to 1 nm and below. It is solution-processed from a single host–guest system comprising organic room-temperature phosphors and colloidal quantum dots. The share of excited triplet states within the photoluminescent layer is dependent on the excitation wavelength and determines the afterglow intensity of the film, which is tracked by a simple photodetector. Finally, an all-organic thin-film wavelength sensor and two applications are demonstrated where this novel measurement concept successfully replaces a full spectrometer.

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/660

ddc:660

Impact of Fabrication Processes of Small-Molecule-Doped Polymer Thin-Films on Room-Temperature Phosphorescence

Thomas, Heidi, Haase, Katherina, Achenbach, Tim, Bärschneider, Toni, Kirch, Anton, Talnack, Felix, Mannsfeld, Stefan C. B., Reineke, Sebastian

18 April 2024

The development of organic materials displaying room-temperature phosphorescence is a research field that has attracted more and more attention in the last years. Most studies focus on designing or optimizing emitter molecules to increase the phosphorescent performance in host:emitter systems. Rarely, the overall thin-film preparation routines are compared with respect to their triplet-state luminescence yield. Herein, different film preparation techniques are investigated using the very same emitter molecule. A variation of host polymer, post-annealing temperature, and fabrication procedure is evaluated with respect to the obtained phosphorescent lifetime, photoluminescent quantum yield, and phosphorescence-to-luminescence ratio. This study elaborates the importance of different film preparation techniques and gathers a concise set of data which is helpful to anyone optimizing the phosphorescence of a particular system.

info:eu-repo/classification/ddc/530

ddc:530