The effect of polymer doping on the formation of helical structure in ferroelectric liquid crystals

Takayuki Inoue; Nozomi Higuchi; Hirokazu Furue

doi:10.1080/00150190802049582

The effect of polymer doping on the formation of helical structure in ferroelectric liquid crystals

Takayuki Inoue, Nozomi Higuchi, Hirokazu Furue

Department of Materials Science and Technology

Research output: Contribution to journal › Conference article › peer-review

3 Citations (Scopus)

Abstract

The effect of polymer stabilization on the helical structure of ferroelectric liquid crystal (FLC) and the deformation of the helical structure under the application of an electric field has not been cleared. In this study, conoscope observations for polymer-stabilized (PS) FLCs were performed, and we try to examine the polymer anchoring strength from the comparison between the experimental and the computer simulation results. It is found that the helical structure can be stabilized by introducing polymer networks, and the elastic constant of PSFLC may increase in different classes even in a few polymer concentration. Furthermore, it is found that the polymer stabilization can suppress the temperature variation of the elastic constant.

Original language	English
Pages (from-to)	113-120
Number of pages	8
Journal	Ferroelectrics
Volume	364
Issue number	1 PART 1
DOIs	https://doi.org/10.1080/00150190802049582
Publication status	Published - 2008
Event	11th International Conference on Ferroelectric Liquid Crystals, FLC 2007 - Sapporo, Japan Duration: 3 Sept 2007 → 8 Sept 2007

Keywords

Anchoring strength
Computer simulation
Conoscope
Ferroelectric liquid crystal
Polymer stabilization

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10.1080/00150190802049582

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title = "The effect of polymer doping on the formation of helical structure in ferroelectric liquid crystals",

abstract = "The effect of polymer stabilization on the helical structure of ferroelectric liquid crystal (FLC) and the deformation of the helical structure under the application of an electric field has not been cleared. In this study, conoscope observations for polymer-stabilized (PS) FLCs were performed, and we try to examine the polymer anchoring strength from the comparison between the experimental and the computer simulation results. It is found that the helical structure can be stabilized by introducing polymer networks, and the elastic constant of PSFLC may increase in different classes even in a few polymer concentration. Furthermore, it is found that the polymer stabilization can suppress the temperature variation of the elastic constant.",

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T1 - The effect of polymer doping on the formation of helical structure in ferroelectric liquid crystals

AU - Inoue, Takayuki

AU - Higuchi, Nozomi

AU - Furue, Hirokazu

PY - 2008

Y1 - 2008

N2 - The effect of polymer stabilization on the helical structure of ferroelectric liquid crystal (FLC) and the deformation of the helical structure under the application of an electric field has not been cleared. In this study, conoscope observations for polymer-stabilized (PS) FLCs were performed, and we try to examine the polymer anchoring strength from the comparison between the experimental and the computer simulation results. It is found that the helical structure can be stabilized by introducing polymer networks, and the elastic constant of PSFLC may increase in different classes even in a few polymer concentration. Furthermore, it is found that the polymer stabilization can suppress the temperature variation of the elastic constant.

AB - The effect of polymer stabilization on the helical structure of ferroelectric liquid crystal (FLC) and the deformation of the helical structure under the application of an electric field has not been cleared. In this study, conoscope observations for polymer-stabilized (PS) FLCs were performed, and we try to examine the polymer anchoring strength from the comparison between the experimental and the computer simulation results. It is found that the helical structure can be stabilized by introducing polymer networks, and the elastic constant of PSFLC may increase in different classes even in a few polymer concentration. Furthermore, it is found that the polymer stabilization can suppress the temperature variation of the elastic constant.

KW - Anchoring strength

KW - Computer simulation

KW - Conoscope

KW - Ferroelectric liquid crystal

KW - Polymer stabilization

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DO - 10.1080/00150190802049582

M3 - Conference article

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SN - 0015-0193

VL - 364

SP - 113

EP - 120

JO - Ferroelectrics

JF - Ferroelectrics

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T2 - 11th International Conference on Ferroelectric Liquid Crystals, FLC 2007

Y2 - 3 September 2007 through 8 September 2007

ER -

The effect of polymer doping on the formation of helical structure in ferroelectric liquid crystals

Abstract

Keywords

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