Polymer-stabilized ferroelectric liquid crystal for flexible displays

Hideo Fujikake; Hiroto Sato; Takashi Murashige

doi:10.1016/j.displa.2004.04.001

Polymer-stabilized ferroelectric liquid crystal for flexible displays

Hideo Fujikake, Hiroto Sato, Takashi Murashige

Research output: Contribution to journal › Article › peer-review

57 Citations (Scopus)

Abstract

We developed a novel-structured ferroelectric liquid crystal (LC) device containing two fine polymer structures for a flexible moving-image display incorporating thin plastic film substrates. Aligned polymer fibers of sub-μm-diameter stabilize the LC alignment and create high-speed grayscale capability, while the polymer walls attach the two flexible plastic substrates and keep the gap between the substrates constant when the structure is bent. The composite film was obtained by photopolymerization-induced phase separation using a solution film of LC and monomer that was coated by a flexographic printing method. The fabricated device has great potential for flexible large-area moving-image displays.

Original language	English
Pages (from-to)	3-8
Number of pages	6
Journal	Displays
Volume	25
Issue number	1
DOIs	https://doi.org/10.1016/j.displa.2004.04.001
Publication status	Published - 2004 May 1
Externally published	Yes

Keywords

Ferroelectric liquid crystal
Flexible display
Photopolymerization-induced phase separation
Polymer fiber
Polymer wall

ASJC Scopus subject areas

Human-Computer Interaction
Hardware and Architecture
Electrical and Electronic Engineering

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10.1016/j.displa.2004.04.001

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title = "Polymer-stabilized ferroelectric liquid crystal for flexible displays",

abstract = "We developed a novel-structured ferroelectric liquid crystal (LC) device containing two fine polymer structures for a flexible moving-image display incorporating thin plastic film substrates. Aligned polymer fibers of sub-μm-diameter stabilize the LC alignment and create high-speed grayscale capability, while the polymer walls attach the two flexible plastic substrates and keep the gap between the substrates constant when the structure is bent. The composite film was obtained by photopolymerization-induced phase separation using a solution film of LC and monomer that was coated by a flexographic printing method. The fabricated device has great potential for flexible large-area moving-image displays.",

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AU - Fujikake, Hideo

AU - Sato, Hiroto

AU - Murashige, Takashi

PY - 2004/5/1

Y1 - 2004/5/1

N2 - We developed a novel-structured ferroelectric liquid crystal (LC) device containing two fine polymer structures for a flexible moving-image display incorporating thin plastic film substrates. Aligned polymer fibers of sub-μm-diameter stabilize the LC alignment and create high-speed grayscale capability, while the polymer walls attach the two flexible plastic substrates and keep the gap between the substrates constant when the structure is bent. The composite film was obtained by photopolymerization-induced phase separation using a solution film of LC and monomer that was coated by a flexographic printing method. The fabricated device has great potential for flexible large-area moving-image displays.

AB - We developed a novel-structured ferroelectric liquid crystal (LC) device containing two fine polymer structures for a flexible moving-image display incorporating thin plastic film substrates. Aligned polymer fibers of sub-μm-diameter stabilize the LC alignment and create high-speed grayscale capability, while the polymer walls attach the two flexible plastic substrates and keep the gap between the substrates constant when the structure is bent. The composite film was obtained by photopolymerization-induced phase separation using a solution film of LC and monomer that was coated by a flexographic printing method. The fabricated device has great potential for flexible large-area moving-image displays.

KW - Ferroelectric liquid crystal

KW - Flexible display

KW - Photopolymerization-induced phase separation

KW - Polymer fiber

KW - Polymer wall

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Polymer-stabilized ferroelectric liquid crystal for flexible displays

Abstract

Keywords

ASJC Scopus subject areas

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