Recently, a type of fluorophor was

Recently, a type of fluorophor was demonstrated to exhibit delayed fluorescence with singlet yield over 25%, which can originate from the interaction of two triplets (triplet-triplet annihilation) or up-conversion of triplet to singlet (reverse intersystem crossing, called thermally activated delayed fluorescence (TADF)) [63], [64], [65], [66], [67], [68], [69] and [70]. Based on the exotic materials, fluorescent OLEDs with ultrahigh efficiency were fabricated. This type of material, especially the TADF materials, have great potential for hybrid WOLEDs. TADF materials may achieve high efficacy by combining two high efficiency components, that is, by stacking the blue delayed fluorescence and phosphorescence devices to fabricate tandem hybrid WOLEDs. Moreover, partial triplet excitons formed in these fluorophors could be used for delayed fluorescence and the other ones may be manipulated to be caught by phosphors, leading to the efficient use of triplet excitons from blue delayed fluorescence emitters. This concept could provide another useful approach to obtain high efficiency in hybrid WOLEDs