What molecule am I?
聽Researchers have been working on OLEDs for many years; but now the technology is going commercial, mostly in mobile phones, but also in TVs like some manufactured by Korean giant LG Corp.
What are the advantages of OLEDs over conventional inorganic LEDs? According to Guillaume Chansin, senior technology analyst at IDTechEx, an international market research and consulting firm, 鈥淥LED displays can be lighter, they can be flexible, and they allow designers more leeway with the shape of their devices.鈥� He adds that OLEDs can be far more energy-efficient than the LCDs found in most TVs today; and because they are now manufactured on plastic substrates instead of glass ones, 鈥淥LED displays can make phone screens shatterproof, or even foldable.鈥�
So where does our molecule come in? 鈥淒iphenylsulfone dimethyldihydroacridine鈥�, formally 10,10鈥�-(sulfonyldi-4,1-phenylene)bis[9,10-dihydro-9,9-dimethylacridine], is a blue light鈥揺mitting OLED that was developed by Chihaya Adachi and colleagues at Kyushu University (Fukuoka, Japan). The fluorescent OLED is聽聽than earlier blue light emitters. Its performance compares well with that of the current generation of phosphorescence-based OLEDs.
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