Enlargement of blue-phase stability for rod-like low-molecular-weight chiral nematic liquid crystal mixtures

Beomjong Kim; Yeon Jung Um; Seongun Jeon; Hirotugu Kikuchi; Sung Kyu Hong

doi:10.1080/02678292.2014.936531

Enlargement of blue-phase stability for rod-like low-molecular-weight chiral nematic liquid crystal mixtures

Beomjong Kim, Yeon Jung Um, Seongun Jeon, Hirotugu Kikuchi, Sung Kyu Hong

Department of Chemical and Biochemical Engineering

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

5 Scopus citations

Abstract

In this study, we investigated the enlargement of liquid crystal (LC) blue-phase (BP) temperature range using the rod-like low-molecular-weight cyano phenyl-type chiral nematic LC with various core group and chiral dopant concentrations. Also, the electro-optic response time was investigated for them. We found that the BP temperature range was strongly dependent upon the core structure and the chiral dopant concentration for the chiral nematic LC mixtures having the same terminal group. Also, we found a stable BP with a wide temperature range (more than 6 K), including a BP-isotropic coexistence state over 13.5 K upon heating and cooling processes and very fast response time (less than 1 ms), by using the cyano phenyl-type chiral nematic LC mixture with a high molecular aspect ratio and a high chiral dopant concentration.

Original language	English
Pages (from-to)	1619-1626
Number of pages	8
Journal	Liquid Crystals
Volume	41
Issue number	11
DOIs	https://doi.org/10.1080/02678292.2014.936531
State	Published - 2 Nov 2014

Keywords

blue phase
concentration of chiral dopant
core group
liquid crystal
rod-like chiral nematic liquid crystal
temperature range

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10.1080/02678292.2014.936531

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title = "Enlargement of blue-phase stability for rod-like low-molecular-weight chiral nematic liquid crystal mixtures",

abstract = "In this study, we investigated the enlargement of liquid crystal (LC) blue-phase (BP) temperature range using the rod-like low-molecular-weight cyano phenyl-type chiral nematic LC with various core group and chiral dopant concentrations. Also, the electro-optic response time was investigated for them. We found that the BP temperature range was strongly dependent upon the core structure and the chiral dopant concentration for the chiral nematic LC mixtures having the same terminal group. Also, we found a stable BP with a wide temperature range (more than 6 K), including a BP-isotropic coexistence state over 13.5 K upon heating and cooling processes and very fast response time (less than 1 ms), by using the cyano phenyl-type chiral nematic LC mixture with a high molecular aspect ratio and a high chiral dopant concentration.",

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author = "Beomjong Kim and Um, {Yeon Jung} and Seongun Jeon and Hirotugu Kikuchi and Hong, {Sung Kyu}",

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AU - Kim, Beomjong

AU - Um, Yeon Jung

AU - Jeon, Seongun

AU - Kikuchi, Hirotugu

AU - Hong, Sung Kyu

PY - 2014/11/2

Y1 - 2014/11/2

N2 - In this study, we investigated the enlargement of liquid crystal (LC) blue-phase (BP) temperature range using the rod-like low-molecular-weight cyano phenyl-type chiral nematic LC with various core group and chiral dopant concentrations. Also, the electro-optic response time was investigated for them. We found that the BP temperature range was strongly dependent upon the core structure and the chiral dopant concentration for the chiral nematic LC mixtures having the same terminal group. Also, we found a stable BP with a wide temperature range (more than 6 K), including a BP-isotropic coexistence state over 13.5 K upon heating and cooling processes and very fast response time (less than 1 ms), by using the cyano phenyl-type chiral nematic LC mixture with a high molecular aspect ratio and a high chiral dopant concentration.

AB - In this study, we investigated the enlargement of liquid crystal (LC) blue-phase (BP) temperature range using the rod-like low-molecular-weight cyano phenyl-type chiral nematic LC with various core group and chiral dopant concentrations. Also, the electro-optic response time was investigated for them. We found that the BP temperature range was strongly dependent upon the core structure and the chiral dopant concentration for the chiral nematic LC mixtures having the same terminal group. Also, we found a stable BP with a wide temperature range (more than 6 K), including a BP-isotropic coexistence state over 13.5 K upon heating and cooling processes and very fast response time (less than 1 ms), by using the cyano phenyl-type chiral nematic LC mixture with a high molecular aspect ratio and a high chiral dopant concentration.

KW - blue phase

KW - concentration of chiral dopant

KW - core group

KW - liquid crystal

KW - rod-like chiral nematic liquid crystal

KW - temperature range

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DO - 10.1080/02678292.2014.936531

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SN - 0267-8292

VL - 41

SP - 1619

EP - 1626

JO - Liquid Crystals

JF - Liquid Crystals

IS - 11

ER -

Enlargement of blue-phase stability for rod-like low-molecular-weight chiral nematic liquid crystal mixtures

Abstract

Keywords

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