Thermally activated delayed fluorescence (TADF) offers promise for all-organic light-emitting
diodes with quantum efficiencies competing with those of transition-metal-based …

It is well known that by horizontally aligning the transition dipole moments of exciton dipoles
in the emitter films of organic light‐emitting diodes (OLEDs), a larger fraction of the radiative …

Organic semiconductors, which include a diverse range of carbon-based small molecules
and polymers with interesting optoelectronic properties, offer many advantages over …

Here, a novel deep blue emitter SBABz4 for use in organic light-emitting diodes (OLED) is
investigated. The molecular design of the emitter enables thermally activated delayed …

Both the molecular orientation and conformation of thermally activated delayed fluorescence
(TADF) emitter molecules that are doped in the host matrix are crucial to determine the …

Two trinuclear cyclometalated iridium (III)-based complexes of M-Ir-M (M= Re, Ir) type were
strategically designed with characteristically different electron distributions based on the …

Wide energy gap materials dispiro [fluorene‐9, 9′‐anthracene‐10′, 9 ″‐fluorene](SAS)
and dispiro [xanthene‐9, 9′‐anthracene‐10′, 9 ″‐xanthene](XAX) containing double …

An optimized, thermally activated delayed fluorescence-(TADF)-sensitized fluorescence
(TSF) strategy is proposed to boost the electroluminescence efficiency of solution-processed …

Dual emission light‐emitting dendrimers composed of phosphorescent fac‐tris [2‐
phenylpyridyl] iridium (III)[Ir (ppy) 3] cores and thermally activated delayed fluorescence …

Phosphorescent emissive materials in organic light‐emitting diodes (OLEDs) manufactured
using evaporation are usually blended with host materials at a concentration of 3–15 wt% to …