Spelling suggestions: "subject:"iiquid crystal alignment"" "subject:"1iquid crystal alignment""
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The study of influence of anisotropy in rubbed polyimide thin films on liquid crystal alignment by means of reflection anisotropy spectroscopyWang, Sin-ping 15 July 2008 (has links)
Rubbing alignment has been used popularly in display industry. However, the alignment mechanisms of rubbed polymer are still not well understood. The purpose of this study is to investigate the relationship between anisotropy of rubbed polyimide thin film and liquid crystal alignment. In this study, we discuss the effects of surface energy and RAS on the surface roughness and pretilt angle of liquid crystal molecules.
RAS is a non-contact optical probing technique developed originally for real-time, in situ monitoring of semiconductor growth . In this technique the normalized difference in reflectivity along two orthogonal directions is measured. Recently, the prospect of using RAS for process control in the fabrication of liquid crystal devices is investigated.
On the other hand, we have known that the magnitude of surface energy is related to the strength of molecular bond. We can obtain the variation of surface properties by measuring the difference of surface energy.
We found that the RA signal, pretilt angle and surface roughness are increasing with an increase in rubbing strength, but surface energy was decreased..
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The Use of Polydimethylsioxane thin films in fabrication of multi-domain surfaceChuarn, Wen-Ruei 28 June 2012 (has links)
In this study we use PDMS thin films to fabricate of multi-domain surface. PDMS gets the characteristic of good physical properties and chemical, not only low surface free energy, flexible, also has low toxicity, low cost and can protect our environment.
We used the DI water that was dropped on the PDMS thin film surface and became stable to explore the wettability of the surface, and we had a discussion about when liquid crystal dropped on the PDMS thin film surface.
Then we also observe the phenomenon that was liquid crystal will shift a little distance and we used the optical image to analyze our device.
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Modulation of pretilt angle of liquid crystal molecule using double alignment layersLin, Pao-Chyuan 25 January 2008 (has links)
The liquid-crystal display because matches to the method is different , common has the TN monitor , the STN monitor , and the MVA monitor . Because these match to the method difference , therefore liquid crystal molecule pretilt angle is also different . Present liquid crystal molecule pretilt angle choice way includes : (1) Chooses the different polyimide material , after specific rubded intensity , but produces specific pretilt angle. (2) Uses low pretilt angle the polyimide material , mixes high pretilt angle according to the different proportion the polyimide material , but achieved accent of the pretilt angle changes .
But in this research proposed double alignment layers , takes the first floor by homotropic layers , uses homogenous layers does for the upper formation , the surface free energy of the alignment layer can be easily controlled by adjusting the thickness of the top polyimide layer, similarly may achieve the accent to change liquid crystal molecule pretilt angle the effect . And may compensate the liquid crystal display to be insufficient because of rubbed polyimide , but has the question which dark condition is exposed , has a higher contrast gradient .
Because this experiment scope accent changes the effect in liquid crystal molecule higher pretilt angle good , also kneading board various regions liquid crystal molecule pretilt the angle uniformity is higher , therefore may effectively apply on various types homotropic liquid crystal display component , for example: MVA , VA-STN , DSTN liquid-crystal display .
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Anchoring Transitions of Liquid Crystals on Large Angle Deposited SiOx Thin FilmsChen, Cheng 21 November 2006 (has links)
No description available.
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CONTROLLABLE LIQUID CRYSTAL ALIGNMENT WITH THE ASSISTANCE OF REACTIVE MONOMERSLu, Lu 31 October 2012 (has links)
No description available.
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LANGMUIR LAYERS AND LANGMUIR/SCHAEFER FILMS OF BENT-CORE MOLECULESWang, Ji 12 November 2007 (has links)
No description available.
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