Ernst Horkel scite author profile

A series of 6 novel triarylamine-containing oxadiazole compounds (o-PCzPOXD, o-ICzPOXD, o-TPATOXD, o-PCzTOXD, o-ICzTOXD, o-CzTOXD) have been designed, synthesized and characterized concerning applications as host materials in PHOLED devices. To further improve the ortho-linkage concept, the impact of incorporating planarized electron-donating triarylamine (TAA) structures on intramolecular charge transfer was examined. The effect was evaluated for two series of electron-accepting oxadiazole scaffolds, realizing ortho-linkage on the benzene (POXD) and the thiophene (TOXD) core. Thermal analysis shows increased glass-transition temperatures for planarized structures indicating an improved morphological stability. A higher degree of planarization also results in significantly increased singlet and triplet energy values, revealing the impact on the intramolecular charge transfer. Employing the developed materials, red (o-TPATOXD: CEmax: 28.8 cd A-1, EQEmax: 16.9%), green (o-PCzPOXD: CEmax: 62.9 cd A-1, EQEmax: 17.1%) and blue (o-PCzPOXD: CEmax: 29.8 cd A-1, EQEmax: 13.4%) devices were achieved showing remarkably low efficiency roll-off for planarized donors. Hence, this is the first report of efficient blue devices for this specific class of host materials. It is proposed that the results correlate with an increasing ortho-linkage effect and decreasing donor strength of the TAA moiety by planarization and, thus, tackling one of the major challenges in PHOLED research: improving both triplet energy and compound stability

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Indolo[3,2,1-jk]carbazole based planarized CBP derivatives as host materials for PhOLEDs with low efficiency roll-off

Kautny

Eichelter

et al. 2016

Organic Electronics

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Synthesis, Spectroscopy, and Computational Analysis of Photoluminescent Bis(aminophenyl)‐Substituted Thiophene Derivatives

et al. 2013

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Substituted oligothiophenes have a long history in the field of organic electronics, as they often combine outstanding electro-optical properties with the ease of synthesis. To assist the rational selection of the most promising structures to be synthesized, there is the demand for tools that allow prediction of the properties of the materials. In this study, we present strategies for synthesis and computational characterization, with respect to the fluorescence behavior of oligothiophene-based materials for organoelectronic applications. In a combined approach, sophisticated computational methodologies are directly compared to experimental results. The M06-2X functional in combination with the polarizable continuum model in a state-specific formulation for excited-state solvation proved to be particularly reliable. In addition, a semiclassical approach for describing the vibrational broadening of the spectra is employed. As a result, a robust procedure for the prediction of the fluorescence spectra of oligothiophene derivatives is presented.

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Synthesis of deoxynivalenol-3-ß-D-O-glucuronide for its use as biomarker for dietary deoxynivalenol exposure

Fruhmann

Warth

Hametner

et al. 2012

WMJ

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Trichothecene mycotoxins are prevalent toxic secondary metabolic products of several fungal species and pose a serious threat to human and animal health. Deoxynivalenol (DON) is known to undergo rapid metabolisation after uptake. The formed glucuronides are urinary excreted and could therefore serve as possible biomarkers for daily uptake measurement. So far human exposure to the major toxin DON was estimated from dietary average intake or by measurement of the parent toxin after hydrolysis. These approaches are indirect and time-consuming. Due to the clear demand for a direct determination method and lack of an available reference substance we synthesised DON-3-O-ö-D-glucuronide. The Königs-Knorr procedure using acetobromo-α-D-glucuronic acid methyl ester as glucuronyl-donor was optimised to produce the target compound in mg scale allowing subsequent characterisation via nuclear magnetic resonance and LC-MS/MS.

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Towards efficient initiators for two-photon induced polymerization: fine tuning of the donor/acceptor properties

Holzer

Lunzer

Rosspeintner

et al. 2019

Mol. Syst. Des. Eng.

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Ernst Horkel

Oxadiazole based bipolar host materials employing planarized triarylamine donors for RGB PHOLEDs with low efficiency roll-off

Indolo[3,2,1-jk]carbazole based planarized CBP derivatives as host materials for PhOLEDs with low efficiency roll-off

Synthesis, Spectroscopy, and Computational Analysis of Photoluminescent Bis(aminophenyl)‐Substituted Thiophene Derivatives

Synthesis of deoxynivalenol-3-ß-D-O-glucuronide for its use as biomarker for dietary deoxynivalenol exposure

Towards efficient initiators for two-photon induced polymerization: fine tuning of the donor/acceptor properties

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