含炔基类盘状液晶分子的研究进展

盘状液晶分子具有平面盘状结构且能在一定条件下排列成有序的柱状相,其特有的柱状相结构使得这类材料具有特殊的性质,在光电转换、有机半导体及液晶磁性材料等方面有着广泛的应用,因此受到广大科研工作者越来越多的关注。本文主要综述了近十几年来国内外文献报道的含炔基的盘状液晶分子及其性质,着重讨论炔基基团在不同的位置时对盘状液晶性能的影响。     

甲壳型液晶高分子研究进展与展望

简要介绍了甲壳型液晶高分子的模型理论, 概述了当前国内外对甲壳型液晶高分子设计、 液晶相态、 性质及基于甲壳型液晶高分子的嵌段共聚物体系的设计和自组装性质等研究进展, 展望了今后的研究方向.     

刚性链侧链型液晶高分子（甲壳型液晶高分子）研究进展

普通的侧链型液晶高分子属柔性链高分子,而“甲壳型液晶高分子”虽从化学结构着属于侧链型液晶高分子,其性质却和典型的眩链型液晶高分子相似,具有很大的分子链刚性。本文介绍了“甲型液晶高分子”这一科学概念及其研究进展,并对尚待解决的问题进行了探讨。     

聚十三烷二酸对偶氮氧苯酚酯的合成及液晶态性质

本文用十三烷二酸和对偶氮氧苯酚合成了具有长链柔性单元的聚十三烷二酸对偶氮氧苯酚酯。用各种方法对其液晶态性质进行了表征和研究,并与结构相似的液晶聚合物聚十二烷二酸对偶氮氧苯酚酯及聚十三烷二酸2,2′-二甲基对偶氮氧苯酚酯进行了比较,用实验数据阐明了产生相转变奇偶效应的主要原因。并由热分析数据从又一方面证实了Flory关于液晶态中各向异性相与各向同性相共存的观点。     

含液晶基团的聚对亚苯基亚乙炔基类交替共聚物的合成、表征及性能研究

合成了两种含氰基联苯液晶基团的新型聚对亚苯基亚乙炔基(PPE)类交替共聚物,并对其进行了结构表征和性能研究.示差扫描量热仪(DSC)和偏光显微镜(POM)的结果证明了在液晶单元含量较大时聚合物才会出现明显的液晶形态.荧光光谱表明,在降温前后液晶聚合物的发光光谱发生了明显的变化.同时,对聚合物进行能量转移研究发现随着溶液浓度的增加,Frster能量转移更加完全;另外,利用原子力显微镜(AFM)对聚合物降温前后的形态变化进行了观察.结果表明,液晶性质可以导致聚合物形态的变化进而带来发光光谱的改变,为今后制备液晶可控型发光聚合物提供了理论依据.     

液晶性树状高分子

对树状高分子进行功能化,使之成为具有特定性能的新型材料是目前很热门的课题,树状液晶就是其中之一.树状高分子长径比很小,似乎难以形成液晶态,但人们已发现多种树状液晶分子,几乎囊括了所有在其他高分子中出现过的液晶相.本文按液晶相分类,介绍树状液晶高分子的研究进展.     

苯并菲类液晶高分子合成及应用北大核心CSCD

苯并菲液晶材料能够自组装成柱状相,被广泛应用在光电材料方面、功能分子膜、信息储存等方面。苯并菲衍生物合成方法简单,并且具有非常良好的光电性质,引起了研究者的广泛关注。苯并菲液晶高分子可以分为不同的类型,其合成方法也不相同。本文在简单介绍苯并菲液晶高分子合成方法的同时,对苯并菲液晶高分子的应用也做简要的概括。     

含偶氮基团的聚甲基丙烯酸酯型侧链液晶高分子的合成与表征

报道了一种新的含对甲氧基苯氨羰基偶氮苯基团的甲基丙烯酸酯单体及其自由基聚合产物的合成。利用元素分析,＾１Ｈ－ＮＭＲ、ＵＶ－Ｖｉｓ、ＧＰＣ、ＴＧ－ＤＴＡ、ＰＯＭ及Ｘ－射线衍射等手段对其结构与性能进行了表征。结果表明,偶氮单体不具有液晶性质,而聚合物则具有向列型液晶相存在,并且它在空气中具有很好的热稳定性。     

4,4‘—对苯二甲酰基二氧二苯甲酸与酸二醇的共聚及液晶性能研究

以对苯二甲酸和对羟基苯甲酸为起始原料合成了液晶单体４,４’－对苯二甲酰地氧二苯甲酰氯（ＴＯＢＣ）,用ＴＯＢＣ分别与癸二醇－１,１０,己二醇－１,６,戊二醇－１,５,丁二醇－１,４和乙二醇进行缩聚反应,生成了一系列主链型热致液晶共聚酯。用ＤＳＣ、热台偏光显微镜和Ｘ－射线衍射仪等对合成的共聚酯的液晶行为进行了表征。结果表明,合成的共聚互均为向列型热致液晶,共液晶温度范围在２０℃￣６８℃之间,并随着脂肪     

嵌段液晶高分子的合成进展

综述了近几年嵌段液晶共聚物在合成方面取得的新进展，主要包括活性聚合、液晶（或非液晶、低聚物与非液晶（或液晶）聚全物的单体反应、液晶低聚物与非液晶低降物直接反应和先制备非液晶嵌段共聚物再于侧链引入液晶基元四个方面。同时还简要地介绍了嵌段液晶共聚物的结构、性能以及今后的发展趋势。     

Benzoate liquid crystals with direct isotropic–smectic transition and antipathogenic activity

A smectogen liquid crystal based on benzoate units has been synthesized and structurally characterized by FTIR and ¹H NMR spectroscopy. Besides, its structure and supramolecular arrangement in the crystalline state was demonstrated by single crystal X-ray diffraction measurements. The thermotropic behaviour, monitored by differential scanning calorimetry and polarized light microscopy, consists in the formation of an enantiotropic smectic mesophase with a direct first order transition from the isotropic to smectic mesophase, and with its thermal stability range superposed on human body temperature. The smectogen liquid crystal has moderate wettability – suitable for biocompatible materials and presents good antipathogenic activity against gram positive and gram negative bacteria and fungus.All these properties recommend the understudied liquid crystal to be used in biochemical and biological applications.     

Determination of symmetry and molecular arrangements of free-standing liquid crystal films using null-transmission ellipsometry

A high resolution null-transmission ellipsometry system has been developed for measurement of the optical properties of liquid crystal free-standing films. The ellipsometric parameters are measured to within a resolution of 0.002° from samples held in a sealed, temperature-controlled environment. By measuring the ellipsometric parameters as a function of applied electric field orientation, the optical symmetry and molecular orientations of free-standing liquid crystal films can be determined in some cases. Three carefully selected applications of this technique are presented.     

The physical properties of alkene-terminated liquid crystal molecules/E8 mixture and the electro-optical properties as they doped in polymer-dispersed liquid crystal systems

Effects of the content of fluorinated alkene-terminated liquid crystal (LC) molecules on the physical properties of the fluorinated alkene-terminated LC/E8 mixture were studied. The morphology and electro-optical properties as they doped in polymer-dispersed liquid crystal (PDLC) films were investigated. The detailed discussion of the obtained results is given. As a result, comparing with the physical properties of the series of LC mixtures with the same content of the analogous fully saturated compounds doped with E8, we find that the birefringence is significantly larger for the LC mixture with the alkene-terminated materials. Both fluorinated alkene-terminated LC molecules and the analogous fully saturated compounds doped with E8 reduce the driving voltage of PDLC films. Moreover, PDLC films with the fluorinated alkene-terminated LC molecules possessed higher contrast ratio and faster response time than that of the PDLC films prepared by adding the same mass fraction of the analogous fully saturated compounds. Thus, the ability to manipulate physical properties of LC mixture and electro-optical properties of PDLC films by changing the LC molecular structures may have future relevance for new LC structures design and applications of PDLC films.     

液晶二聚体

液晶二聚体作为半柔性主链型液晶聚合物的简化模型, 通过对其液晶性质的研究, 有助于理解更复杂聚合物体系的液晶行为. 另外, 液晶二聚体作为一类特殊的液晶也有其自身的相结构和相行为. 以分子结构与液晶态的相互关系为主线, 系统介绍了目前文献报道的对称及非对称棒状液晶二聚体(线形、H形、U形、T形)、盘状液晶二聚体(对称的盘-盘状液晶二聚体和非对称的盘-棒状液晶二聚体)和香蕉形液晶二聚体(对称的香蕉-香蕉形液晶二聚体和非对称的香蕉-棒状液晶二聚体)等各种不同类型的液晶二聚体的研究进展, 以期为新型液晶二聚体的分子设计提供一些借鉴.     

The effects of some factors on the rheological properties of the lyotropic liquid crystals formed in Brij97/NaDC/IPM/water system: compositions,temperature and polyphenols

In this paper, interaction between Brij97 and NaDC in mixed micelles was studied by surface tension method. Phase behavior for Brij97/NaDC/IPM/H₂O system was investigated at the desire molar ratio of α_NaDC?=?0.42 and the human body temperature of 37?°C. Hexagonal and cubic liquid crystal were found in this system analyzed by small angle x-ray scattering (SAXS). some factors were changed to affect the rheological properties of liquid crystal. Rheological investigations showed: The higher content of water and lower experimental temperature favored the greater values of shear viscosity and viscoelastic modulus; The sample was closer to the plastic fluid and was more likely to recover from disturbed state to equilibrium state at lower ratio of NaDC; The curcumin and TP can influence the shear viscosity, viscoelastic properties and phase transition temperature, even change the structure of liquid crystal. This supplies a way to adjust rheological properties, structure and even phase transition by altering those factors.     

Applications of multidirectional reflective light-control films on reflective polymer-dispersed liquid crystal displays for enhancement in image quality at lower viewing angles

In this paper, multidirectional light-control reflective (LCR) films are developed in order to create an active reflective structure that will enhance the image brightness and contrast ratio of reflective dye-doped polymer-dispersed liquid crystal (D-PDLC) displays at lower viewing angles. Advantages of LCR films are that their production is low cost and they require a simple photolithographic fabrication method. The optimum design prism-type light-control reflective film succeeded in minimising the surface scattering effect; thus, the contrast ratio is much enhanced. The symmetric and asymmetric LCR films produced multidirectional scattering that enhances the reflectance at lower viewing angles, which has importance in future display applications. In particular, the prism LCR film has been found to be more influential on the reflectance of D-PDLC films due to multidirectional scattering of light by non-symmetric arrays. The improvement in contrast ratio has been confirmed by the enhancement of optical properties for reflective D-PDLC displays at lower viewing angles below 30°.     

聚合物分散液晶(PDLC)材料的光聚合反应

以Ar+激光器为光源, 采用虎红、 N-苯基甘氨酸、二季戊四醇羟基五丙烯酸酯和乙烯基吡咯烷酮分别作为光引发剂、共引发剂、预聚物和稀释剂, 与液晶材料TEB30A结合, 通过光聚合反应, 制备了聚合物分散液晶(PDLC), 用紫外光谱和荧光光谱对其反应机理进行了分析. 实验结果表明, PDLC是通过光引发剂吸收光子能量后与共引发剂相互作用, 形成自由基中间体并引发聚合反应, 使预聚物与液晶产生相分离形成的.     

纤维素胆甾型液晶研究进展

主要介绍了近年来在纤维素胆甾型液晶领域的研究进展,包括其制备：形成机理、织构特性及其影响因素等方面。     

THE FORMING EQUATION FOR THE LAMELLAR LIQUID CRYSTAL

Based on the characteristics and composition of the lamellar liquid crystal, its forming equation was proposed for the first time. It was found that the predicted location and shape of a liquid crystalline region by the equation match well with experimental results. The predicted size of the region is greater lhan the experimentally determined one. The proposed forming equation for the lamellar liquid crystal provides a new tool lor determining the liquid crystalline region in multicomponent systems. This niav be useful in both basic theoretical research and industrial applications