Hostname: page-component-848d4c4894-v5vhk Total loading time: 0 Render date: 2024-06-28T19:29:42.236Z Has data issue: false hasContentIssue false
  • English
  • Français

The Dependence of Phase Separation of PDLC on the sample preparation Conditions of TFT LCD Panel

Published online by Cambridge University Press:  10 February 2011

C. H. Noh ,
K. S. Park  and
D. S. Sakong
C. H. Noh
Affiliation:
Samsung Advanced Institute of Technology (SAIT), P.O. Box Suwon 111, Korea
K. S. Park
Affiliation:
Samsung Advanced Institute of Technology (SAIT), P.O. Box Suwon 111, Korea
D. S. Sakong
Affiliation:
Samsung Advanced Institute of Technology (SAIT), P.O. Box Suwon 111, Korea
Get access

Abstract

The electro-optical property of PDLC had been improved by optimizing synthetic conditions such as control of crosslinking density of polymer and formulation. The PDLC materials had low driving voltage, high contrast ratio and high reliabilities for the long-term operation. But there remained some problems for applying to TFT LCD panel. The panel structure of TFT LCD was different from that of the transparent ITO glass because TFT LCD panel had many opaque parts such as transistor elements, metal electrodes and black matrix. Opaque parts of TFT panel shielded UV light and resulted in quite - different phase separation behaviors of PDLC prepared from the transparent ITO glass cell.

The sample preparation conditions in TFT panel had to be changed to obtain similiar electro-optical property with ITO glass cell. Changes of UV intensity and photoinitiator species of the PDLC TFT panel were effective to obtain good results. Contrast of the panel and physical property of the liquid crystal could be improved to the level of ITO glass panel.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 471: Symposium G – Flat Panel Display Materials III , 1997 , 75
Copyright
Copyright © Materials Research Society 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1. Doane, J.W., Golemme, A., West, J.L., Whitehead, J.B., Wu, B.-G., Mol. CrystLiq. Cryst., 165, 511 (1988).Google Scholar
2. Fujisawa, T., Ogawa, H. and Maruyama, K., Proc. of the 9th International Display Research Conf., Kyoto, Oct. 1989.Google Scholar
3. Hirai, Y., Niiyama, S., Ooi, Y., Kunigita, M., Kumai, H., Yuki, M. and Gunjima, T., Proc. of the Society for Information Display, Anaheim, May 1991.Google Scholar
4. Shikama, S., Kida, H., Daijogo, A., Okamori, S., Ishitani, H., Maemura, Y. and Kondo, M., Proc. of the Society for Information Display, Orlando, May 1995.Google Scholar
5. Noh, C.H., Jung, J.E., Kim, J.Y., Sakong, D.S., and Choi, K.S., Mol. Cryst. Liq. Cryst., 237, 17(1993).Google Scholar
6. Noh, C.H., Lee, S.J., Jin, Y.W., Im, S.J., Jung, J.E., Park, K.S. and Sakong, D.S., Proc. of IUPAC SEOUL '96, Aug. 1996.Google Scholar