1) charge transport
电荷传输
1.
Study on charge transport properties of hexaazatriphenylene and its derivatives;
六氮杂苯并菲及其衍生物电荷传输性质的理论研究
2.
Theory study on the charge transport properties of triphenylene discogens with a phenylpropionyloxy or 3-phenylpropenoyloxy side Chain
苯丙炔酸和苯丙烯酸酯苯并菲盘状液晶电荷传输的理论研究
3.
Photocatalysis mechnicism, charge transport properties and producing method of nano-titania film are reviewed.
本文介绍了纳米TiO2 膜的光催化机理、电荷传输特性以及制备方法 ,分别评述了一些制备方法的特点和有待解决的问题 ,综述了纳米TiO2 光催化膜和光电转换膜近期研究的一些成果和应用示例 ,叙述了纳米TiO2 膜的研究现状 ,特别是明确了纳米TiO2 膜近期的研究热点。
2) charge transfer
电荷传输
1.
Synthesis and Properties of Stilbene-Triarylamine as Charge Transfer Materials;
苯乙烯基三苯胺类电荷传输材料的合成及性能研究
3) Charge transportation
电荷传输
1.
The properties of charge transportation of organic/inorganic devices were investigated by dark current and photocurrent spectra.
研究了聚合物PVK与TiO2分层光电导器件的电荷传输特性,分别比较了两种器件:器件S1(ITO/TiO2/PVK/Al)和器件S2(ITO/PVK/TiO2/Al)。
4) transported charges
传输电荷
1.
on the transported charges per applied voltage cycle of high frequency dielectric barrier discharge(DBD) were studied by the established experimental system for generating DBD and the corresponding measurement system,and a theoretical analysis based on the theory of gas discharge was provided for understanding the experimental results.
利用高频介质阻挡放电(DBD)实验装置和测量系统研究了外加电压幅值、气隙距离和电源频率等因素对高频DBD单个周期传输电荷的影响,并结合气体放电理论对实验结果进行了分析。
5) charge transfer material
电荷传输材料
1.
Their photoconductivity was investigated in a double-layered photoreceptor where compounds Va and Vb were used as charge transfer materials (CTM),and titanium oxide phthalocyanine(TiOPc) or diazo compound.
以目标化合物Ⅴa和Ⅴb为电荷传输材料,分别以酞菁氧钛、偶氮类化合物为电荷产生材料复配制备的双层光电导体,在白光和红光曝光下测试了它们的光电导性能。
2.
Using Ⅲ as charge transfer material and titanium oxide phthalocyanine as charge generation material,a double-layered photoreceptor cell was fabricat ed and some parameters were obtained.
以目标化合物为电荷传输材料,以酞菁氧钛为电荷产生材料复配制备的光电导样片性能参数为:充电电压1000V时,表面电位可达到935V,残余电位为60V,暗衰率为11 1V/s,光敏度为1 0(lx·s)-1,该数据表明目标化合物具有优良的电荷传输性能。
6) charge transport material
电荷传输材料
1.
Investigations of charge transport materials are drawingmore and more attentions as the eletroluminescence technique develops.
随着电致发光技术的发展,电荷传输材料的研究日益受到重视,噁二唑类化合物由于其特殊的结构,优良的电子传输性能引起人们广泛的关注。
补充资料:传播常数(见传输线)
传播常数(见传输线)
propagation constant
ChUon匕oChongsh日传播常数(propagation constant)线。见传输
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