液晶与显示
液晶與顯示
액정여현시
CHINESE JOURNAL OF LIQUID CRYSTALS AND DISPLAYS
2014年
6期
886-892
,共7页
景姝%王华%刘慧慧%杜晓刚%苗艳勤%潘成龙%周禾丰
景姝%王華%劉慧慧%杜曉剛%苗豔勤%潘成龍%週禾豐
경주%왕화%류혜혜%두효강%묘염근%반성룡%주화봉
电荷生成层%叠层%OLEDs
電荷生成層%疊層%OLEDs
전하생성층%첩층%OLEDs
charge generation layer%tandem%OLEDs
采用结构为 LiF/Al/F4-TCNQ/NPB 的电荷产生层,制备出了双发光单元叠层有机电致发光器件(OLED:Organic Light Emitting Device).通过对比实验发现当 F4-TCNQ 层的厚度为8 nm、Al 层的厚度为5 nm 时,电荷产生层产生电荷的能力较强且具有良好的透光率.基于此,本文制备了发光层为 CBP:6%Ir(ppy)3的叠层 OLED,通过与单发光单元OLED 的性能比较发现:采用 LiF/Al/F4-TCNQ/NPB 作为电荷产生层制备的叠层 OLED 的最大电流效率与功率效率分别为51.6 cd/A、28.4 lm/W,为单发光单元 OLED 的2.16倍、1.8倍,此外采用这种结构的电荷产生层有效解决了叠层 OLED 由于工作电压高而导致功率效率并未得到提升的问题;另一方面,采用有机材料 F4-TCNQ 代替传统无机金属氧化物作为电荷产生层中的电荷产生部分,能够避免无机金属氧化物高温升华对 Al 层薄膜的破坏,提升了器件的效率并且降低了器件的 roll-off 现象.
採用結構為 LiF/Al/F4-TCNQ/NPB 的電荷產生層,製備齣瞭雙髮光單元疊層有機電緻髮光器件(OLED:Organic Light Emitting Device).通過對比實驗髮現噹 F4-TCNQ 層的厚度為8 nm、Al 層的厚度為5 nm 時,電荷產生層產生電荷的能力較彊且具有良好的透光率.基于此,本文製備瞭髮光層為 CBP:6%Ir(ppy)3的疊層 OLED,通過與單髮光單元OLED 的性能比較髮現:採用 LiF/Al/F4-TCNQ/NPB 作為電荷產生層製備的疊層 OLED 的最大電流效率與功率效率分彆為51.6 cd/A、28.4 lm/W,為單髮光單元 OLED 的2.16倍、1.8倍,此外採用這種結構的電荷產生層有效解決瞭疊層 OLED 由于工作電壓高而導緻功率效率併未得到提升的問題;另一方麵,採用有機材料 F4-TCNQ 代替傳統無機金屬氧化物作為電荷產生層中的電荷產生部分,能夠避免無機金屬氧化物高溫升華對 Al 層薄膜的破壞,提升瞭器件的效率併且降低瞭器件的 roll-off 現象.
채용결구위 LiF/Al/F4-TCNQ/NPB 적전하산생층,제비출료쌍발광단원첩층유궤전치발광기건(OLED:Organic Light Emitting Device).통과대비실험발현당 F4-TCNQ 층적후도위8 nm、Al 층적후도위5 nm 시,전하산생층산생전하적능력교강차구유량호적투광솔.기우차,본문제비료발광층위 CBP:6%Ir(ppy)3적첩층 OLED,통과여단발광단원OLED 적성능비교발현:채용 LiF/Al/F4-TCNQ/NPB 작위전하산생층제비적첩층 OLED 적최대전류효솔여공솔효솔분별위51.6 cd/A、28.4 lm/W,위단발광단원 OLED 적2.16배、1.8배,차외채용저충결구적전하산생층유효해결료첩층 OLED 유우공작전압고이도치공솔효솔병미득도제승적문제;령일방면,채용유궤재료 F4-TCNQ 대체전통무궤금속양화물작위전하산생층중적전하산생부분,능구피면무궤금속양화물고온승화대 Al 층박막적파배,제승료기건적효솔병차강저료기건적 roll-off 현상.
A novel type of tandem organic light emitting device (OLED)was demonstrated by emplo-ying LiF/Al/F4-TCNQ/NPB as charge generation layer (CGL).By contrast experiment,it is sugges-ted that the optimum thickness of F4-TCNQ and Al in CGL is 8 nm and 5 nm,respectively,which exhibits the good ability of generating charges and higher optical transmittance.Based on the optimized structure of CGL,we fabricated the tandem OLED with the emission layer of CBP:6%Ir(ppy)3 .By comparing the device performance of the tandem OLED and conventional single OLED,it was found that the highest current efficiency and power efficiency were 5 1.6 cd/A and 28.4 lm/W,which was 2.1 6 times and 1.8 times as high as that of single OLED,respectively.In conclusion,the tandem OLED with the CGL of LiF/Al/F4-TCNQ/NPB can improve the power efficiency of OLED.In addi-tion,replacing conventional inorganic metal oxide with organic material of F4-TCNQ in CGL can avoid the destruction of film formation of Al layer, inducing in improving in performance and weakening the efficiency roll-off phenomenon.
