Mechanical model of rotation frame for phase stability and molecular conformation in liquid crystal system

Heng Ma; Jun Xu; Hiroyoshi Onnagawa; Hiroyuki Okada; Sigeru Sugimori; Kazuhisa Toriyama

doi:10.1143/JJAP.46.293

Mechanical model of rotation frame for phase stability and molecular conformation in liquid crystal system

Heng Ma^*, Jun Xu, Hiroyoshi Onnagawa, Hiroyuki Okada, Sigeru Sugimori, Kazuhisa Toriyama

^*Corresponding author for this work

Electric and Electronic Engineering

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

4 Scopus citations

Abstract

A mechanical model that explains the phase behaviors and thermal properties of a liquid crystal (LC) system is developed. We have modeled terphenyl liquid crystalline molecules on the basis of the architecture of a frame consisting of atomic nuclei. It is shown that the thermal stability of the LC molecules is dominated by the rotational dynamics of the nuclei frame. The characteristics of phase stability in a fluorine atom's position isomers in the terphenyl compounds are successfully interpreted with the use of an inertia tensor of the atom nuclei frame. From the observation of novel slim and fat isomers in fluorinated terphenyl LC compounds, we have developed a theory that interprets and predicts the thermal phase stability for novel isomeric LC compounds.

Original language	English
Pages (from-to)	293-298
Number of pages	6
Journal	Japanese Journal of Applied Physics
Volume	46
Issue number	1
DOIs	https://doi.org/10.1143/JJAP.46.293
State	Published - 2007/01/10

Keywords

Isomeric compound
Liquid crystal
Mechanical model
Phase stability
Rotation motion

ASJC Scopus subject areas

General Engineering
General Physics and Astronomy

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title = "Mechanical model of rotation frame for phase stability and molecular conformation in liquid crystal system",

abstract = "A mechanical model that explains the phase behaviors and thermal properties of a liquid crystal (LC) system is developed. We have modeled terphenyl liquid crystalline molecules on the basis of the architecture of a frame consisting of atomic nuclei. It is shown that the thermal stability of the LC molecules is dominated by the rotational dynamics of the nuclei frame. The characteristics of phase stability in a fluorine atom's position isomers in the terphenyl compounds are successfully interpreted with the use of an inertia tensor of the atom nuclei frame. From the observation of novel slim and fat isomers in fluorinated terphenyl LC compounds, we have developed a theory that interprets and predicts the thermal phase stability for novel isomeric LC compounds.",

keywords = "Isomeric compound, Liquid crystal, Mechanical model, Phase stability, Rotation motion",

author = "Heng Ma and Jun Xu and Hiroyoshi Onnagawa and Hiroyuki Okada and Sigeru Sugimori and Kazuhisa Toriyama",

year = "2007",

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doi = "10.1143/JJAP.46.293",

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T1 - Mechanical model of rotation frame for phase stability and molecular conformation in liquid crystal system

AU - Ma, Heng

AU - Xu, Jun

AU - Onnagawa, Hiroyoshi

AU - Okada, Hiroyuki

AU - Sugimori, Sigeru

AU - Toriyama, Kazuhisa

PY - 2007/1/10

Y1 - 2007/1/10

N2 - A mechanical model that explains the phase behaviors and thermal properties of a liquid crystal (LC) system is developed. We have modeled terphenyl liquid crystalline molecules on the basis of the architecture of a frame consisting of atomic nuclei. It is shown that the thermal stability of the LC molecules is dominated by the rotational dynamics of the nuclei frame. The characteristics of phase stability in a fluorine atom's position isomers in the terphenyl compounds are successfully interpreted with the use of an inertia tensor of the atom nuclei frame. From the observation of novel slim and fat isomers in fluorinated terphenyl LC compounds, we have developed a theory that interprets and predicts the thermal phase stability for novel isomeric LC compounds.

AB - A mechanical model that explains the phase behaviors and thermal properties of a liquid crystal (LC) system is developed. We have modeled terphenyl liquid crystalline molecules on the basis of the architecture of a frame consisting of atomic nuclei. It is shown that the thermal stability of the LC molecules is dominated by the rotational dynamics of the nuclei frame. The characteristics of phase stability in a fluorine atom's position isomers in the terphenyl compounds are successfully interpreted with the use of an inertia tensor of the atom nuclei frame. From the observation of novel slim and fat isomers in fluorinated terphenyl LC compounds, we have developed a theory that interprets and predicts the thermal phase stability for novel isomeric LC compounds.

KW - Isomeric compound

KW - Liquid crystal

KW - Mechanical model

KW - Phase stability

KW - Rotation motion

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M3 - 学術論文

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SN - 0021-4922

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EP - 298

JO - Japanese Journal of Applied Physics

JF - Japanese Journal of Applied Physics

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Mechanical model of rotation frame for phase stability and molecular conformation in liquid crystal system

Abstract

Keywords

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