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The Directional Peeling Effect of Nanostructured Rigiflex Molds on Liquid-Crystal Devices: Liquid-Crystal Alignment and Optical Properties

✍ Scribed by Jong Bok Kim; Ju Ri Lim; Jin Seol Park; Han Jin Ahn; Min Jung Lee; Sung Jin Jo; Mihee Kim; Daeseung Kang; Se Jong Lee; Youn Sang Kim; Hong Koo Baik

Publisher
John Wiley and Sons
Year
2008
Tongue
English
Weight
417 KB
Volume
18
Category
Article
ISSN
1616-301X

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✦ Synopsis

Abstract

We report a new strategy, the directional peeling of a rigiflex mold with a nanostructure, to overcome several problems with general patterning techniques for liquid‐crystal (LC) alignment. These include difficulty in generating the pretilt angle and in controlling the LC rising‐up direction, formation of local domains, and weak optical properties. The directional peeling of the rigiflex mold results in pretilt‐angle formation and controls the LC rising‐up direction. In addition, a nanostructure with small spacing aligns the LC with a high order parameter because of a strong confinement effect and suppresses diffraction due to its small spacing. Eventually, the nanostructure achieves improvements in the optical properties. In summary, while recent patterning techniques for LC alignment only solve one problem, the directional peeling of the rigiflex mold with a nanostructure simultaneously overcomes several problems with LC alignment and optical properties.

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