ETRI-Knowledge Sharing Plaform



논문 검색
구분 SCI
연도 ~ 키워드


학술대회 Harvest of Triplet Excitons in Fluorescence Emission Layer Based on a Wide Band Gap Host of TcTa for Efficient White Organic Light Emitting Diodes
Cited 3 time in scopus Download 0 time Share share facebook twitter linkedin kakaostory
이정익, 추혜용, 양용석, 도이미, 정승묵, 박상희, 황치선
Organic Light Emitting Materials and Devices XI (SPIE 6655), v.6655, pp.1-4
07MB1600, Flexible 디스플레이, 조경익
Selective energy transfer from triplet states of the fluorescent blue emission layer to a red phosphorescent dye in a neighbored triplet harvesting layer has been achieved, which has provided improved efficiency with emissions from fluorescent and phosphorescent dyes. First of all, it is crucial to find a wide band gap host for a fluorescent blue emission layer which has larger triplet state band gap than green or red phosphorescent dye. It was found that TcTa is a good wide band gap host for fluorescent blue dopant(BD) and a efficient blue device was obtained. A phosphorescent red dopant (RD) was introduced into a neighboring electron transporting layer to harvest triplet states in the fluorescent blue emission layer and by optimizing the distance between the blue emission layer and the red triplet harvesting layer, we have succeeded in obtaining the balanced emission of the blue and the red emissions with high efficiency from the device structure of NPB/TcTa:BD/BAlq/BAlq:RD/BAlq/ LiF/Al. The device showed maximum external quantum efficiency of 16 % at 0.1 mA/cm2 and 13 % of external quantum efficiency, (0.29, 0.23) of CIE coordinates and 920 cd/m2 at 10 mA/cm2. To realize RGB WOLED, a fluorescent green dopant was introduced into the blue emission layer. The RGB WOLED was successfully obtained through optimization of doping concentration for green dopant and it showed 10 % of external quantum efficiency, (0.36, 0.36) of CIE coordinates and 1400 cd/m2 at 10 mA/cm2.
Fluorescence, Hybrid, OLED, Phosphorescence, White
KSP 제안 키워드
Blue dopant, Blue emission, CIE coordinates, Device structure, Doping concentration, External Quantum Efficiency, Improved efficiency, Organic light-emitting diodes(OLEDS), Phosphorescent dyes, Red dopant, Red phosphorescent