1) Electron transport
电子传输
1.
Progress of 1,3,4-oxadiazole derivative electron transport functional materials
噁二唑类电子传输材料的研究进展
2.
Unlike phenothiazine,phenothiazine-5-oxide(M3)is a specific molecular which may be a good electron transporting unit due to the conversion of electron-donating sulfur atom to electron-withdrawing sulfoxide group.
研究吩噻嗪衍生物单体的拉电子特性对聚合物P1的电子传输性能的影响,合成不含吩噻嗪衍生物的同一类型聚合物P2。
3.
A new organic electron transport material, N-ethyl-4-acetylaminonaphthalimide (EAAN)was synthesized as the electron transport layers in organic EL devices.
报道新型有机电子传输材料N-乙基-4-乙酰氨基萘亚胺及其在有机电致发光器件中的电子传输性。
2) electron-transport
电子传输
1.
With the rapid developments of organic optoelectronic devices, such as light-emitting diodes (OLEDs), field-effect transistors, and solar cells, it becomes an impending need to develop organic electron-transport (n-type) materials with high mobility, good stability in air and solution processing.
随着有机发光二极管(OLED)和有机场效应晶体管等有机光电器件的研究深入,迫切需要迁移率高、稳定性好和可溶液加工的有机电子传输材料来支撑其发展。
4) electron transmission efficiency
电子传输比
5) Electron transport layer
电子传输层
1.
By using poly 2-5, bis(dodecyloxy)-bhenylene vinelene (PDDOPV) as hole transport layer and 8-quinoline aluminum (Alq 3) as electron transport layer, two types of diodes with different thickness of electron transport layer had been made.
以PDDOPV作空穴传输层,配合两类不同厚度的Alq3电子传输层制作了两种有机LED器件。
6) electron-transporting layer
电子传输层
1.
Organic light-emitting devices (OLEDs) with PBD electron-transporting layer were fabricated.
以PBD为电子传输层制作了一组掺杂型有机电致发光器件,并研究了掺杂器件中PBD对器件的光谱、亮度等的影响。
补充资料:电子-电子双共振
在垂直静磁场H的方向,施加两个微波电磁场:①较弱的微波电磁场,激发电子从能级2向能级3跃迁,不致于饱和;②强的微波电磁场,激发电子从能级1向能级4跃迁,使达到饱和,从而导致能级4的电子转移至能级3,以观察反映2→3跃迁的电子自旋共振信号强度的变化,故称为电子-电子双共振。它与电子-核双共振不同之处是不涉及核的跃迁,并且观察的与电子自旋共振有关的能级和未观察的跃迁能级之间无共享的公共能级。
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