image: An organic light-emitting device (OLED) structure shows the emission layer which incorporates new charge-transporting organic phosphine oxide molecules (top right) as high triplet energy hosts for blue organometallic phosphors (blue dots). view more
Credit: Pacific Northwest National Laboratory
In an OLED, light emitting molecules harvest positive and negative charge carriers from oppositely charged electrodes to create excitons, which collapse to give light emission. By using organometallic phosphors, a photon can be emitted for every electron used so there is no wasted current.
But until now, no good host materials were available to transport the charge to blue phosphorescent light emitters. And, without an efficient blue component, it is not possible to generate the high quality white light required for indoor lighting. The PNNL team is solving this problem by linking small organic molecules together using inorganic "phosphine oxide" connecting units to make larger molecules that transport charge but do not interfere with the blue light emission process.
PNNL researcher Paul Vecchi will present his results Thursday, March 30.