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机构地区:[1]兰州大学学报编辑部,兰州730000 [2]兰州交通大学数理与软件工程学院,兰州730070 [3]兰州大学物理科学与技术学院,兰州730000
出 处:《兰州大学学报(自然科学版)》2010年第5期122-125,共4页Journal of Lanzhou University(Natural Sciences)
摘 要:研究了在空穴传输层2T-NATA中掺杂不同浓度的p型氧化剂F4-TCNQ制备高性能的绿色有机电致发光器件(OLED).F4-TCNQ在空穴传输层2T-NATA中的掺杂浓度为8%(质量百分比)时(驱动电压为22V),其亮度达到4256cd/m^2,同时与未掺杂的器件相比,其最大发光效率由2.9cd/A增大到3.4 cd/A.分析结果表明,OLED性能的改善主要归因于:首先,掺杂F4-TCNQ使得器件做到了欧姆接触,使消耗在ITO/空穴传输层界面的电压达到最小;其次,掺杂F4-TCNQ提高了载流子形成激子的几率,最终使器件性能得到了很大程度的改善.A high performance green organic light emitting diode (OLED) was studied by using the doped p-type oxidant F4-TCNQ in the hole transporting layers (HTL) of 2T-NATA. When the doping concentration of F4-TCNQ (mass percentage) was 8% in the HTL (at the drive voltage of 22 V), the brightness of the OLED was as high as 4256cd/m^2; at the same voltage, compared with the undoped, the maximum ele.c7 troluminescence efficiency was increased from 2.9 cd/A to 3.4 cd/A. The reasons of these improvements are as follows: on the one hand, F4-TCNQ doped device makes ohmic contact, which increases effective driving voltage of the device; on the other hand, by doping p-type oxidant F4-TCNQ in the HTL, the carrier tunneling mechanisms can make effective transference, and this might form more exciton, and finally improves properties of the OLED.
关 键 词:有机电致发光器件(OLED) 掺杂 F4-TCNQ 空穴传输层
分 类 号:TN383.1[电子电信—物理电子学]
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