液晶取向剂是制造液晶显示器的关键材料之一。
Liquid crystal alignment layer is one of the key materials of liquid crystal display.
用长波线性偏振紫外光(LPUV)照射pica薄膜,能得到很好的液晶取向。
Good LC alignment was achieved by exposing a long_wave linearly polarized ultraviolet (LPUV) light to the PICA film.
本发明涉及一种液晶取向剂、液晶取向膜及其形成方法、液晶显示元件以及聚合物。
The invention relates to a liquid crystal orientation agent, a liquid crystal orientation film and forming method thereof, a liquid crystal display component and polymer;
良好的液晶取向性能使新器件的对比度(514:1)、驱动电压和响应时间都能够与双玻璃基板LCD相比拟。
Compared to the LCD using two glass substrates, our new device exhibits a comparable contrast ratio (514:1), driving voltage, and response time because of good LC alignment.
液晶态是取向有序的物态,又有不同的相。
Liquid crystalline state has orientation order and it contains different phases.
给出了出现向列相时液晶薄层中的分子取向状态和向列相-各向同性相转变。
We have given the molecular orientational states of liquid crystal films for the nematic phase and the nematic-isotropic phase transition.
给出了液晶分子取向力矩平衡方程从理论上解释了这种现象。
By means of the equation and scheme of molecular reorientation, the pulsation feature of the diffraction beam was illustrated qualitatively.
给出了该平整度仪在液晶显示器中液晶分子取向膜边缘表面轮廓形状研究方面的一些测试结果。
Some of the testing results in the study of surface edge shapes of orientation films in Liquid Crystal Devices (LCD) by the tester are presented.
本文研究了液晶和聚酰亚胺分子在聚酰亚胺l B膜上的取向效果。
The orientational effect of liquid crystal and Polyimide molecules on the LB films was studied.
研究了超枝化偶氮液晶高分子在脉冲激光辐射下的各向异性取向特性。
Photoorientation of azobenzene-functionalized liquid crystalline hyperbranced polymer is investigated by using nanosecond pulse laser.
研究了发生在偶氮染料掺杂液晶中的光诱导重新取向问题,并解释增强因子与光入射方向存在依赖关系的物理机制。
This paper investigates an optical reorientation process of azo dye doped liquid crystals and explains the dependence of the enhancement factor on the incident light direction.
实验结果首次揭示了液晶5CB分子在银、金电极表面的取向是不同的。
Our experiments results firstly suggest that the orientation of LC 5CB absorbed on Ag electrode is different from that of Au electrode.
液晶的取向方向垂直于入射LPUV光的偏振轴。
The LC alignment direction is found perpendicular to the polarization axis of the incident LPUV light.
本发明提供一种二色性宾-主起偏振器,其包括取向的聚合的液晶主体和随此取向的二色性客体。
A dichroic guest-host polarizer comprises an oriented polymerized liquid crystal host and aligned therewith a dichroic guest.
本发明公开了具有高度有序的中间相的可聚合液晶,所述液晶适用于获得高度取向的聚合物薄膜例如起偏振器薄膜。
Polymerizable liquid crystals having a highly ordered mesophase which may be suitable used to obtain highly oriented polymer films such as polarizer films are disclosed.
在对向基板20中,虽然在其整面形成取向膜26,但是与TN模式的液晶装置不同,并不形成对向电极。
In the opposite substrate 20, an alignment layer 26 is formed over the entire surface thereof; however, unlike a TN mode liquid crystal device, no opposite electrode is formed.
液晶高分子同时具有聚合物的稳定性和液晶的取向有序性。
Liquid crystalline PLLA polymer shows the characteristics of both thermodynamic stability of polymer and orientational ordering of liquid crystal.
两端带有碳碳双键,尺寸与液晶分子相近的刚性小分子单体在线偏振紫外光照射下聚合,形成的聚合物膜能够诱导液晶分子均匀取向。
The monomers with vinyl groups at two ends of the main chain after exposed to linearly polarized ultraviolet (LPUV) light can induce homogeneous alignment of liquid crystal molecules.
最后通过光学偏光显微镜和共聚焦显微镜对液晶分了的排列取向定性的进行了分析研究。
In the end, alignment of liquid crystal molecules was investigated through optically polarized microscope and confocal microscope.
得出液晶盒内取向层附近的铁电液晶的扭曲排列以及由于聚合物网络的体锚定作用而引起的盒内液晶分子的均匀书架式排列是“V”字型电光特性产生的关键。
And we confirmed that the key point to produce the "V" shape E-0 characteristics is the combination of bookshelf layer structure and the molecular twist orientation near the aligning surface.
取向膜作为液晶显示器的重要组成部分,起到使液晶分子在液晶盒内整齐排列的作用。
As an important component of LCD, alignment layer makes liquid crystal molecule arranged orderly in the LCD cell.
根据本发明,不需要取向膜,就能制备稳定的垂面取向液晶膜。
According to the present invention, regardless of the alignment film, a stable homeotropic alignment liquid crystal film may be manufactured.
综述了目前国内外液晶显示器(LCD)工业中所广泛使用的液晶分子取向排列控制技术。
The alignment control techniques for liquid crystal in the present LCD industry were summarized.
综述了目前国内外液晶显示器(LCD)工业中所广泛使用的液晶分子取向排列控制技术。
The alignment control techniques for liquid crystal in the present LCD industry were summarized.
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