A macroscopic magneto-optical response resulting from local effects in ferronematic liquid crystals

IF 2.9 3区化学 Q3 CHEMISTRY, PHYSICAL

Soft Matter Pub Date : 2024-08-30 DOI:10.1039/d4sm00577e

Xiangshen Meng, Xiaowei Li, Jian Li, Yueqiang Lin, Xiaodong Liu, Zhenghong He

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Abstract

This study investigates the magneto-optical response of liquid crystals (LCs) with planar anchoring in the presence of γ-Fe₂O₃ magnetic nanoparticles (MNPs). This research demonstrates the formation of novel magnetic composite chains of LCs wrapped around γ-Fe₂O₃ MNP chains within the LC matrix under an applied magnetic field. These composite chains exhibit a distinct magneto-optical response, characterized by changes in birefringence and dichroism as the magnetic field direction is altered. Based on experimental findings, a two-subsystem model and an effective volume fraction of composite chains are proposed to describe the magneto-optical behavior of the γ-Fe₂O₃ MNP-doped LCs. The first subsystem comprises the LC matrix, which retains its inherent anisotropic optical properties and does not respond to the applied magnetic field. The second subsystem consists of the magnetic composite chains, which exhibit a distinct magneto-optical response due to their rotational alignment with the magnetic field. The difference in absorbance, 2α_dd, which corresponds to dichroism, decreases with increasing magnetic field angle Θ, indicating a corresponding change in dichroism. This interplay between the two subsystems leads to the macroscopic magneto-optical response observed in the γ-Fe₂O₃ MNP-doped LCs. Due to the stability of the composite chains, the magneto-optical response is stable and can be reversed.

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铁氧体液晶局部效应产生的宏观磁光响应

本研究探讨了在γ-Fe2O3 磁性纳米粒子（MNPs）存在下具有平面锚定的液晶（LCs）的磁光响应。这项研究表明，在外加磁场作用下，液晶基质中包裹着 γ-Fe2O3 MNP 链的液晶会形成新型磁性复合链。这些复合链表现出独特的磁光响应，其特点是随着磁场方向的改变而发生双折射和二色性变化。根据实验结果，我们提出了一个双子系统模型和复合链的有效体积分数来描述掺杂了 MNP 的 γ-Fe2O3 LCs 的磁光行为。第一个子系统由 LC 矩阵组成，它保留了其固有的各向异性光学特性，不会对外加磁场做出反应。第二个子系统由磁性复合链组成，由于其旋转排列与磁场一致，因此表现出明显的磁光响应。吸光度差值 2αdd 相当于二色性，随着磁场角度 Θ 的增大而减小，表明二色性也发生了相应的变化。这两个子系统之间的相互作用导致在掺杂了 MNP 的 γ-Fe2O3 LCs 中观察到宏观磁光响应。由于复合链的稳定性，磁光响应是稳定的，并且可以逆转。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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