Optimization of Chemical Structure of Compatibilizers Based on Liquid Crystalline Diblock Copolymers for Reconciliation Between Inorganic Quantum Dots and Organic Cholesteric Liquid Crystals

IF 0.3 Q4 CRYSTALLOGRAPHY
M. Bugakov, N. Boiko, V. Shibaev
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引用次数: 0

Abstract

One of the key challenge of designing hybrid liquid crystalline (LC) materials is to combine organic and inorganic constituents in one stable system. To overcome this challenge, specially designed substances called compatibilizers may be used but the chemical structure of these substances and their content in the system should be adjusted properly. In this work, we optimized the chemical structure and the weight fraction of a compatibilzer between CdSe/ZnS quantum dots (QDs) and low molecular weight cholesteric liquid crystalline (CLC) matrix. As compatibilizers we used LC diblock copolymers containing a mesogenic block consisting of phenyl benzoate monomer units and poly(vinylpyridine) block of different polymerization degree, which is capable of binding to the surface of various nanoparticles. Using polarized optical microscopy and absorbance spectroscopy we found that the polymerization degree of poly(vinylpyridine) block can exert the influence on the CLC matrix properties such as a photonic band gap width and light scattering. The obtained results allowed us to prepare the hybrid CLC materials, which combine the high loading of QDs and unique optical properties of the cholestric phase. Our approach to creation hybrid CLC materials might be employed as a “flexible template” for the design of many other hybrid LC systems.
基于液晶二嵌段共聚物的相容剂化学结构优化用于无机量子点和有机胆甾醇液晶的调和
设计混合液晶(LC)材料的关键挑战之一是将有机和无机成分结合在一个稳定的系统中。为了克服这一挑战,可以使用被称为相容剂的特殊设计的物质,但这些物质的化学结构及其在系统中的含量应该适当调整。在这项工作中,我们优化了CdSe/ZnS量子点(QDs)和低分子量胆甾醇液晶(CLC)基质之间的相容剂的化学结构和重量分数。作为相容剂,我们使用了LC二嵌段共聚物,该共聚物包含由苯甲酸苯酯单体单元组成的介晶嵌段和不同聚合度的聚(乙烯基吡啶)嵌段,该嵌段能够结合到各种纳米颗粒的表面。利用偏振光学显微镜和吸收光谱,我们发现聚(乙烯基吡啶)嵌段的聚合度可以影响CLC基体的性能,如光子带隙宽度和光散射。所获得的结果使我们能够制备混合CLC材料,该材料结合了量子点的高负载量和胆汁淤积相的独特光学性质。我们创建混合CLC材料的方法可能被用作许多其他混合LC系统设计的“灵活模板”。
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来源期刊
CiteScore
1.30
自引率
40.00%
发文量
30
期刊介绍: The Journal presents the following main directions of creation/construction, study and application of self-assembled materials: SYNTHESIS, STRUCTURE, PROPERTIES, MEDICINE, BIOLOGY, NANOTECHNOLOGY, SENSORS, PRACTICAL APPLICATION and INFORMATION. The journal is addressed to researchers, lecturers, university students, engineers. The publisher of the journal is the Nanomaterials Research Institute of "Ivanovo State University".
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