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Auteurs principaux: Czerwiński, Michał, Mrukiewicz, Mateusz, Filipow, Mateusz, Pociecha, Damian, Podoliak, Natalia, Repcek, Dalibor, Zając, Monika, Węgłowska, Dorota
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2504.21733
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author Czerwiński, Michał
Mrukiewicz, Mateusz
Filipow, Mateusz
Pociecha, Damian
Podoliak, Natalia
Repcek, Dalibor
Zając, Monika
Węgłowska, Dorota
author_facet Czerwiński, Michał
Mrukiewicz, Mateusz
Filipow, Mateusz
Pociecha, Damian
Podoliak, Natalia
Repcek, Dalibor
Zając, Monika
Węgłowska, Dorota
contents The emergence of ferroelectric mesophases in non-chiral liquid crystal (LCs) has sparked fundamental interest in the molecular mechanisms governing polarity. In this study, we investigate how terminal molecular groups influence the formation and stability of polar phases by analyzing six compounds from three homologous series. Specifically, we compare newly synthesized homologs with a nitro group, which predominantly exhibit polar mesophases, to previously reported structurally related analogs containing either a cyano group or a fluorine atom as terminal fragment. Density Functional Theory (DFT) calculations provide insights into electronic surface potential (ESP) distributions, revealing alternating regions of positive and negative charge density along the molecular axis, consistent with Madhusudana model of polar phase stabilization. We propose the ESP-derived parameter quantifying terminal electrostatic charge, revealing a direct correlation between the negative to positive charge ratio at the molecular termini and the formation of ferroelectric or antiferroelectric mesophases. To validate this hypothesis, we analyze the molecular structure-mesomorphic behavior relationship of other known non-chiral compounds that exhibit polar phases, demonstrating the critical role of terminal groups in determining mesophase polarity. Our findings enhance the understanding of the molecular origins of ferroelectricity in non-chiral LCs, paving the way for the rational design of next-generation functional polar soft materials.
format Preprint
id arxiv_https___arxiv_org_abs_2504_21733
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The role of terminal groups in non-chiral rod-like compounds on the formation of polar fluids
Czerwiński, Michał
Mrukiewicz, Mateusz
Filipow, Mateusz
Pociecha, Damian
Podoliak, Natalia
Repcek, Dalibor
Zając, Monika
Węgłowska, Dorota
Materials Science
The emergence of ferroelectric mesophases in non-chiral liquid crystal (LCs) has sparked fundamental interest in the molecular mechanisms governing polarity. In this study, we investigate how terminal molecular groups influence the formation and stability of polar phases by analyzing six compounds from three homologous series. Specifically, we compare newly synthesized homologs with a nitro group, which predominantly exhibit polar mesophases, to previously reported structurally related analogs containing either a cyano group or a fluorine atom as terminal fragment. Density Functional Theory (DFT) calculations provide insights into electronic surface potential (ESP) distributions, revealing alternating regions of positive and negative charge density along the molecular axis, consistent with Madhusudana model of polar phase stabilization. We propose the ESP-derived parameter quantifying terminal electrostatic charge, revealing a direct correlation between the negative to positive charge ratio at the molecular termini and the formation of ferroelectric or antiferroelectric mesophases. To validate this hypothesis, we analyze the molecular structure-mesomorphic behavior relationship of other known non-chiral compounds that exhibit polar phases, demonstrating the critical role of terminal groups in determining mesophase polarity. Our findings enhance the understanding of the molecular origins of ferroelectricity in non-chiral LCs, paving the way for the rational design of next-generation functional polar soft materials.
title The role of terminal groups in non-chiral rod-like compounds on the formation of polar fluids
topic Materials Science
url https://arxiv.org/abs/2504.21733