Different Effects of Alkyl Chain Length on Rotational Viscosity in Two Types of FLC Mixtures
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概要
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In order to clarify the role of intermolecular interaction, effects of alkyl chain length on the rotational viscosity are investigated in two types of FLC mixtures: a totally chiral compound system and a chiral-compound-doped system. Only in the case of the chiral-compound-doped system does a long alkyl chain, which can produce the strong intermolecular interaction, provide the low rotational viscosity. In this system, ferroelectrically triggered orientation change of a small amount of chiral molecules induces the orientation change of a large amount of non-chiral molecules. It is suggested that the strong intermolecular interaction between the chiral and non-chiral molecules is required in order to amplify the molecular orientation change efficiently.
- 公益社団法人 応用物理学会の論文
公益社団法人 応用物理学会 | 論文
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