摘要
文章讨论了分别利用(4,4,-bis-triphenylsilanyl-biphenyl)BSB;(1,4-bis(triphenyllsily)benzene)UGH2;(1,3-bis(9H-carbazol-9-yl)benzene)MCP三种不同的主体材料制备有机电致红光器件.所用的器件结构为:ITO\Meo-TPD(30 nm)\NPB(20 nm)\MCP:Ir(piq)3(5%:20 nm)\BCP(5 nm)\TPBi(40 nm)\LiF(1 nm)\Al,主体材料为MCP时,主客体之间的LUMO能级之差较小,该组器件的亮度最大,当外加电压达到16 V时,器件的发光亮度为4514cd/m2.当以BSB为主体材料时,主客体之间的的HOMO能级之差ΔH较大,器件的漏电流较小,相应的发光效率较高,当电压为7 V时,器件的最大电流效率为3.30 cd/A.
By discussing using different host material(4,4,-bis-triphenylsilanyl-biphenyl)BSB;(1,4-bis(triphenyllsily)benzene) UGH2;(1,3-bis(9H-carbazol-9-yl)benzene)MCP to make red organic emitting-lighting device,the devices construct is ITO/Meo-TPD(30 nm)/NPB(20 nm)/MCP:Ir(piq)3(5%:20 nm)/BCP(5 nm)/TPBi(40 nm)/LiF(1 nm)/Al.the MCP as the host material for the device luminance is best.when the applied voltage reaches 16 V,the device luminance 4514 cd/m2,when BSB as the host material,the ΔH Between host and object of the HOMO is larger,the leakage current is smaller,Corresponding luminous efficiency is higher,the maximum efficiency of 3.30 cd/A at 7 V.
出处
《吉林师范大学学报(自然科学版)》
2011年第4期44-46,共3页
Journal of Jilin Normal University:Natural Science Edition
基金
国家青年基金项目(10804036)
吉林省科技发展计划项目(20080528
20082112
20100510
20101512)