1) Hole-transporting emitter material
空穴传输发光材料
2) hole-transporting/emitting material
空穴传输/发光材料
3) hole transporting material
空穴传输材料
1.
Synthesis of Hole Transporting Materials and Polycarbonate;
新型空穴传输材料及聚碳酸酯的合成
2.
A summary of nanocrystalline TiO 2 film,dye sensitization and hole transporting materials is also given.
本文介绍了染料敏化纳米太阳能电池的结构和原理 ,对纳米TiO2 膜、敏化染料、空穴传输材料的研究进展进行了综述 。
3.
Function separated organic photoconductive devices were fabricated using synthesized compound as hole transporting material, Y-TiOPc as charge generation material.
分别以β-NPB和α-NPB为空穴传输材料,以酞菁氧钛为电荷产生材料制备功能分离型有机光导器件,并测试光导性能,测试结果表明,器件的半衰减曝光量(E1/2)分别为0。
4) hole transport material
空穴传输材料
1.
Study on synthesis and properties of 9,10-anthryldiamine derivatives as a novel hole transport material;
新型蒽基二胺类空穴传输材料的合成和性能研究
2.
The synthesis of biphenyl triarylamine for hole transport material and study on its photoelectric performance;
联苯类三芳胺空穴传输材料的合成及其光电性能研究
3.
Synthesis,thin film photoluminescence and energy level comparison of novel hole transport material of N,N′-diphenyl-N,N′-bis(3-methylphenyl)-4,4′-naphthidine;
新型空穴传输材料N,N′-二苯基-N,N′-二(3-甲苯基)-4,4′-联萘胺的合成、薄膜发光与能级比较
5) hole-transport materials
空穴传输材料
1.
The progress in synthesis of hole-transport materials is summarized in this paper.
有机电致发光中空穴传输材料对整个器件的性能有重要作用。
2.
In recent years, an amount of research has been directed to the hole-transport materials for use in organic light-emitting diodes (OLEDs) in an effort to improve the film forming ability and thermal stability of the materials.
有机空穴传输材料的成膜性及其薄膜的热稳定性对于提高有机电致发光器件的效率和寿命具有重要的作用。
6) hole transport materials
空穴传输材料
1.
Development of triarylamines as organic hole transport materials;
三芳胺类空穴传输材料研究新进展
2.
Synthesis of star-arylamines hole transport materials;
星状四芳胺类空穴传输材料的合成
3.
Study on Synthesis and Property of the Novel Hole Transport Materials for Organic Light-Emitting Diodes (OLEDs);
新型空穴传输材料的合成和性能研究
补充资料:空穴
分子式:
CAS号:
性质:半导体价带中的电子由于被热或光激发到导带中,或被受主型杂质俘获,在价带中留下一个空能级(即失去电子的价键),称为空穴。当它被邻近原子的价电子占据时,将在邻近产生新的空穴,其效果相当于空穴的移动。人们常把空穴视为在价带中能自由运动、带正电的实体,既简便又确切。
CAS号:
性质:半导体价带中的电子由于被热或光激发到导带中,或被受主型杂质俘获,在价带中留下一个空能级(即失去电子的价键),称为空穴。当它被邻近原子的价电子占据时,将在邻近产生新的空穴,其效果相当于空穴的移动。人们常把空穴视为在价带中能自由运动、带正电的实体,既简便又确切。
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