한국정보디스플레이학회:학술대회논문집
- 2003.07a
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- Pages.589-594
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- 2003
Study of Optimized Condition for Bend State in Polymer Stabilized Pi-cell with Compensation Films
- Jeong, Seung-Yeon (Dept. of Applied Physics, Korea University) ;
- Shin, Hyun-Ho (LG.Philips LCD) ;
- Bos, Phil (Liquid Crystal Institute, Kent State University) ;
- Shin, Sung-Tae (Dept. of Applied Physics, Korea University)
- Published : 2003.07.09
Abstract
The pi-cell [1] is known as one of the candidates for a fast response time and a good viewing angle characteristics due to a self-compensated configuration and can be a replaceable mode instead of the current TN mode and the IPS mode for moving picture in future. This paper shows the optimized condition to maintain bend state instead of splay state, which is mortal demerit for good optical properties in a pi-cell, by using the polymer stabilized method [2]. The good electro-optical characteristics are also obtained by optimizing the various factors, which are monomer concentration in a LC, UV intensity, curing time, curing voltage, and curing temperature, and by using retardation film. We use a scanning electron microscope to study the structures of the polymer stabilized polymer network in a pi-cell as a key to figure out why bend state is occurred.
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