Tailored deep blue OLEDs characteristics with doping engineering in fluorescent dyes based on DMPPP: towards manufacturable solid-state lighting building blocks

“…In principle, deep-blue emitters play an important role in boosting energy-saving benefits and color purity in full-color displays. 5 To suppress the spectral redshift caused by molecular aggregation, host–guest doping technology is commonly utilized in the devices, but this will likely be exposed to a potential risk of phase separation, leading to poor device stability. Thus, it is an important and necessary task to develop high-performance pure deep-blue materials and non-doped OLEDs matching and even below a CIE y coordinate of 0.046.…”

Simple excited-state modification toward a deep-blue hybridized local and charge-transfer (HLCT) fluorophore and non-doped organic light-emitting diodes

“…In principle, deep-blue emitters play an important role in boosting energy-saving benefits and color purity in full-color displays. 5 To suppress the spectral redshift caused by molecular aggregation, host–guest doping technology is commonly utilized in the devices, but this will likely be exposed to a potential risk of phase separation, leading to poor device stability. Thus, it is an important and necessary task to develop high-performance pure deep-blue materials and non-doped OLEDs matching and even below a CIE y coordinate of 0.046.…”

Simple excited-state modification toward a deep-blue hybridized local and charge-transfer (HLCT) fluorophore and non-doped organic light-emitting diodes

“…Importantly, the increasingly more research activities are performed for white OLEDs development in display and lighting fields considering the high color-rendering index (CRI) and large-area fabrication attributes, etc. [7][8][9][10]. The first WOLED was developed by Kido in 1994 with the power efficiency (PE) of 0.83 lm/W, while the PE of current available general WOLED has been over 100 lm/W, which has exceeded the counterpart of traditional fluorescent lamps (70-90 lm/W), casting a large prospect in lighting and display area.…”

Recent advances in thermally activated delayed fluorescence for white OLEDs applications

Electrical and dielectric properties of meridional and facial Alq3 nanorods powders