Self-Assembly Mechanism and Analysis of Smectic Mesophase Induction in Binary Systems of 4-(4-Alkoxyphenylazo)benzonitriles and Dodecyloxybenzoic Acid

IF 0.3 Q4 CRYSTALLOGRAPHY

Liquid Crystals and their Application Pub Date : 2023-09-29 DOI:10.18083/lcappl.2023.3.5

Аntonina I. Smirnova, Nina I. Giricheva, Elena A. Lapykina, Nadezhda V. Usol'tseva

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引用次数: 0

Abstract

Using a combination of experimental methods (polarizing optical microscopy, IR spectroscopy), the two-component systems consisting of 4-dodecyloxybenzoic acid (BA) and 4-(4-alkoxyphenylazo)benzonitriles (BN-n, n = 8, 10, 12) have been studied. The mesophase existence ranges of the systems depending on the length of alkyl substituents of the component BN-n were established. The possibility of formation as well as stability of heterodimeric complexes with a hydrogen bond –COOH···NC – were analyzed by DFT/B97D/6-311++G** method. In all obtained equimolar BN-n:BA (1:1) systems SmA phase was induced, which manifests itself enantiotropically in wide temperature ranges. With the help of computer simulation, it was shown that, unlike homodimers, the expected BN···BA H-complex has an angular structure, which cannot ensure the formation of the SmA phase. To elucidate the mechanism of mesophase formation in BN-n:BA systems, we calculated the energies of intermolecular interaction in homo- and heterodimers, and analyzed the experimental IR spectra of equimolar BN-n:BA systems. The spectra represent a superposition of the spectra of associates BN···BN and cyclic dimers of acid BA···BA. Therefore, we suggest that the BN···BA type H-complexes cannot form in equimolar BN-n:BA mixtures. Instead, a structure consisting of alternating layers of BA···BA dimers and BN···BN associates is formed. The layers of the acid dimer play the main role in the formation of SmA phase. It is noted that –COOH group, in contrast to such proton-donor groups as –NH2, –NH–, –OH, does not form hydrogen bonds with the proton-acceptor –CN group.

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4-(4-烷氧基苯基偶氮)苯并腈与十二烷基氧基苯甲酸二元体系的自组装机理及近晶中间相诱导分析

采用偏光显微镜、红外光谱等实验方法，研究了4-十二烷基氧基苯甲酸(BA)和4-(4-烷氧基苯偶氮)苯腈(BN-n, n = 8,10,12)组成的双组分体系。根据BN-n的烷基取代基长度确定了体系的中间相存在范围。采用DFT/B97D/6-311++G**方法分析了- cooh··NC -氢键异二聚物的形成可能性和稳定性。在所有得到的等摩尔BN-n:BA(1:1)体系中，均诱导了SmA相，并在较宽的温度范围内表现为对向性。计算机模拟表明，与同型二聚体不同，预期的BN···BA h -配合物具有角结构，不能保证SmA相的形成。为了阐明BN-n:BA体系中中间相形成的机理，我们计算了同二聚体和异二聚体的分子间相互作用能量，并分析了等摩尔BN-n:BA体系的实验红外光谱。光谱由BN···BN和BA··BA环二聚体的光谱叠加而成。因此，我们认为BN···BA型h -配合物不能在等摩尔BN-n:BA混合物中形成。相反，形成了由BA··BA二聚体和BN··BN缔合物交替层组成的结构。酸二聚体的层在SmA相的形成中起主要作用。值得注意的是，- cooh基团与- nh2、- nh1、- oh等质子供体基团不同，不与质子受体- cn基团形成氢键。

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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来源期刊

Liquid Crystals and their Application CRYSTALLOGRAPHY-

CiteScore

1.30

自引率

40.00%

发文量

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".