1) PLED
聚合物电致发光二极管
1.
Wet Preparation, Characterization of Silver Cathode and Its Application in PLED;
Ag阴极湿法制备、表征及在聚合物电致发光二极管中应用
2) Polymer light-emitting diode
聚合物发光二极管
1.
Polymer light-emitting diodes(PLED) were fabricated to investigate.
将少量(摩尔分数为1%~3%)含噻吩的窄带隙单体和宽带隙硅芴单体进行共聚,合成了聚{9,9-二己基-3,6-硅芴-co-[2,5-二(2-甲基苯撑-4-基)-噻吩]}和聚{9,9-二己基-3,6-硅芴-co-[2,5-二(2-苯撑-4-基)-噻吩]}两类硅芴共聚物,通过紫外-可见吸收光谱、光致发光光谱,并制作聚合物发光二极管器件测试电致发光光谱等手段,系统表征了两类硅芴共聚物材料的性能。
3) Polymer light emitting diode
聚合物发光二极管
1.
In order to get higher contrast for polymer light emitting diode(PLED), a novel optical interfe-(rence) structure outside the PLED functional layers is designed.
为了得到高对比度的聚合物发光二极管(PLED),设计并制作了消光干涉结构位于有机层之外的新型聚合物二极管。
4) Polymer light-emitting diodes
聚合物发光二极管
1.
Polymer light-emitting diodes(PLEDs)devices based on MEH-PPV were fabricated.
在以聚合物发光材料poly(2-methoxy-5-(2-′ethylhexyloxy)-1,4-phenylene vinylene)(MEH-PPV)为发光层的聚合物发光二极管(PLEDs)的金属阴极与聚合物发光层之间插入一层绝缘的聚合物poly(ethyleneoxide)(PEO),发光器件的发光性能有所提高,尤其是PEO/LiF共同对Al电极修饰时发光器件的开启电压、发光强度、电流效率等性能显著提高。
2.
The interface between metals and organic semiconductors plays a central role in the physics of polymer light-emitting diodes.
在以聚合物发光材料MEH PPV为发光层的聚合物发光二极管(PLEDs)的金属阴极与聚合物发光层之间插入一层绝缘的金属氟化物,发光器件的发光性能有所提高,而且绝缘层的厚度会影响器件性能提高的最终效果。
5) PLED
聚合物发光二极管
1.
Polymer light-emitting diodes (PLED) were fabricated using novel conjugated polyelectrolytes poly [9,9-dioctylfluorene-9,9-(bis(3′-(N,N-dimethyl)- N-ethylammonium bromide)propyl) fluorene-4,7-dithienyl-2,1,3-benzoselenadiazole](PFNBr-DBSe).
利用新型的聚[9,9-二辛基芴-9,9-(双(3′-(N,N-二甲基)-N-乙基铵+溴-)丙基)芴-4,7-二噻吩-2-基-2,1,3-苯并硒二唑](PFNBr-DBSe)共扼聚电解质制备了聚合物发光二极管。
2.
A negative resistance phenomenon and a "hesitancy effect",which is similar as that in inorganic semiconductor devices,are found in polymer light emitting devices (PLED).
对聚合物发光二极管 I- V特性的测量发现 ,被测器件内存在着类似于某些无机器件中的负阻现象和“迟滞回线”状场致漂移的伏安特性 。
6) polymer light-emitting diodes
聚合物电致发光
1.
The performance of polymer light-emitting diodes was optimized by dispersing titania nanotubes into different functional layers.
在聚合物电致发光器件中,通过在不同功能层中掺杂二氧化钛纳米管来改善器件的性能。
补充资料:电致发光显示材料(见电致发光材料)
电致发光显示材料(见电致发光材料)
electroluminescent display materials
蒸敷棘巍 diSPlay 又称场致 质的粉末
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条