在提高聚合物发光二极管的各项性能的进程中,电注入发光聚合物的能带工程将起着积极的作用。
During the improvement of their performance, the energy band engineering of electroluminescent polymers will take positive effect.
本文简要地介绍了电注入发光聚合物的能带的形成、表征以及能带工程在聚合物发光器件中的应用。
In this article, the formation and characterization of the energy band of electroluminescent polymers and the application...
由于有机el属于电注入发光,因而电极材料在EL器件的载流子注入中起着重要作用,但这往往被人们所忽略。
Organic el belongs to a electric injection luminescence, and electrode materials should play very important role in carrier injection of el devices, which was, however, neglected sometimes.
他们在这些管子里注入了通电后会发光的气体。
They fill these tubes with gases that glow when electrified.
有机电致发光器件的效率取决于电子和空穴的有效注入和复合。
Efficiency of organic electroluminescent devices depend on the injection and recombination effectively of electron and hole.
有机电致发光包括载流子的注入、载流子的迁移、激子的产生、光子的发射等过程。
The physical processes of electro-luminescence include injection, migration of carriers, creation of exciton and emission of photons.
通过在发光层(EBL)与电子注入层之间增加激子阻挡层(EBL)制备了新型白色有机发光器件(WOLED)。
A new white organic light emitting diode(WOLED) was constructed by sandwiching an exciton blocking layer(EBL) between the emitting layer(EML) and the electron-injection layer.
计算并讨论了离化距离对器件复合效率以及注入和复合对器件电致发光效率的影响。
By simulation, the influence of disassociated distance on recombination efficiency and the influence of injection and recombination on EL efficiencies are thoroughly studied.
半导体激光器(LD)是一种电流注入式电致发光器件,其工作特性和使用寿命主要取决于驱动电流源的性能优劣。
Laser diode (LD) is a current injected device whose characteristic and life are greatly dependent on the performance of LD-used current supply.
利用离子注入技术,对稀土掺杂到半导体单晶硅中的光致发光行为进行了研究。
The photoluminescence properties of rare earth doped silicon were investigated with ion beam technique.
第二部分合成了具有空穴注入和电子传输功能的双极性咔唑-苯并噻唑类发光材料。
In the second part, luminescent materials of bipolar carbazole-benzothiazole type with hole injection and electronic transmission capabilities were synthesized.
叠层发光器件性能的提高与中间电荷产生层向上下两个发光单元有效的电子、空穴注入有关。
The improvement of tandem device performance is attributed to the efficient electron and hole injection from charge generation layer to two adjacent emission units.
叠层发光器件性能的提高与中间电荷产生层向上下两个发光单元有效的电子、空穴注入有关。
The improvement of tandem device performance is attributed to the efficient electron and hole injection from charge generation layer to two adjacent emission units.
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