利用热补丁稳定光子胶体微晶a液晶

IF 8.7 1区化学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Materials Letters Pub Date : 2025-05-30 DOI:10.1021/acsmaterialslett.5c00167

Yu-Wei Sun, and , Zhan-Wei Li*,

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引用次数: 0

摘要

光子晶体在控制光方面很有价值，但通常需要复杂的光刻或精确的自组装。胶体近晶液晶提供了一个很有前途的替代方案，通过形成周期结构而无需复杂的操作，但在低颗粒密度下实现它们仍然具有挑战性。在这里，我们提出了一种在低粒子密度下通过尖端贴片胶体椭球的自组装来稳定胶体半晶相的简单策略。随着贴片-贴片吸引力的增加，向列相向近晶a相变发生在较低密度下，足够强的吸引力导致各向同性向近晶a直接转变。热补丁诱导的二聚体和三聚体在稳定胶体微晶a相中起着至关重要的作用。光学性质计算表明，得到的胶体smic - a相具有明亮的结构颜色和高反射率，可以通过调节胶体椭球的大小来调节。这些发现表明，通过在各向异性椭球体系统中有策略地引入焓补丁，可以直接获得先进的光子材料。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Stabilizing Photonic Colloidal Smectic-A Liquid Crystals through Enthalpic Patches

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Stabilizing Photonic Colloidal Smectic-A Liquid Crystals through Enthalpic Patches

Photonic crystals are valuable for controlling light but typically require complex lithography or precise self-assembly. Colloidal smectic liquid crystals offer a promising alternative by forming periodic structures without intricate manipulation, yet achieving them at low particle densities remains challenging. Here, we propose a facile strategy for stabilizing the colloidal smectic phase at low particle densities through the self-assembly of tip-patched colloidal ellipsoids. As the patch–patch attraction increases, the nematic-to-smectic-A phase transition occurs at lower densities, and sufficiently strong attraction results in a direct isotropic-to-smectic-A transition. Enthalpic-patch-induced dimers and trimers play a crucial role in stabilizing the colloidal smectic-A phase. Moreover, optical property calculations reveal that the obtained colloidal smectic-A phase exhibits bright structural colors with high reflectance, which can be tuned by adjusting the size of the colloidal ellipsoids. These findings suggest a straightforward route to achieve advanced photonic materials by strategically introducing enthalpic patches in systems of anisotropic ellipsoids.

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来源期刊

ACS Materials Letters MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

14.60

自引率

3.50%

发文量

261

期刊介绍： ACS Materials Letters is a journal that publishes high-quality and urgent papers at the forefront of fundamental and applied research in the field of materials science. It aims to bridge the gap between materials and other disciplines such as chemistry, engineering, and biology. The journal encourages multidisciplinary and innovative research that addresses global challenges. Papers submitted to ACS Materials Letters should clearly demonstrate the need for rapid disclosure of key results. The journal is interested in various areas including the design, synthesis, characterization, and evaluation of emerging materials, understanding the relationships between structure, property, and performance, as well as developing materials for applications in energy, environment, biomedical, electronics, and catalysis. The journal has a 2-year impact factor of 11.4 and is dedicated to publishing transformative materials research with fast processing times. The editors and staff of ACS Materials Letters actively participate in major scientific conferences and engage closely with readers and authors. The journal also maintains an active presence on social media to provide authors with greater visibility.