一种新型侧链液晶聚合物的喇曼光谱研究

根据传统的侧链型液晶聚合物理论,在液晶基元和主链之间必须有柔性链相连。最近我们设计并合成了单体为2,3-双(对烷氧基苯甲酰氧基)苯乙烯的侧链液晶聚合物,该聚合物突破了文献[1]的理论,把液晶基元从重心位置横挂于主链之上,其间无柔性链段,只以单键相接。我们用喇曼光谱研究了该新型侧链液晶聚合物,表明它存在上述结构特点。     

聚硅氧烷侧链液晶高分子的合成与表征

研究以对－烯丙氧基苯甲酸对－氰基苯酚酯为单体的聚硅氧烷侧链液晶高分子的合成方法。首先利用Williamson反应生成醚、羧酸酰化、酯化反应得到单体,然后利用硅氢化反应将单体接枝到聚甲基氢硅氧烷上得到目标产物。用IR,NMR及热台偏光显微镜等方法对单体和聚合物进行了结构表征和液晶行为分析。优化了对－烯丙氧基苯甲酸对－氰基苯酯为单体的聚硅氧烷侧链液晶高分子的合成工艺条件,提高了产率。样品表征结果证明单体和聚合物均呈现近晶液晶相,为特殊功能材料提供了原料。     

γ-Ray-induced copolymerization of ethylene and vinyl chloride in liquid carbon dioxide

The γ-ray-induced copolymerization of ethylene and vinyl chloride with the use of liquid carbon dioxide as a solvent was studied under a total pressure of 400 kg/cm², with a dose rate of 2.5 × 10⁴ rad/hr at 30°C. A rubberlike, sticky polymer is obtained when the molar concentration of vinyl chloride is less than 30% in the monomer mixture, and the polymer is a white powder at higher concentrations of vinyl chloride. Infrared, x-ray, and differential thermal analyses confirm that the polymerization products are noncrystalline, true random copolymers. The rate of copolymerization decreases markedly when a small amount of vinyl chloride is added to ethylene monomer. In the range of vinyl chloride concentration higher than 5%, however, the rate and the molecular weight of copolymer increase with increasing concentration of vinyl chloride. It has been concluded from kinetic considerations based on these results that the rate of initiation increases proportionally with the concentration of vinyl chloride. Further, the growing chain radicals are shown to be deactivated by the cross-termination reaction between the radicals with terminal unit of ethylene and vinyl chloride, and no transfer reaction occurs.     

Quasi “Tacticity” of Rigidly Alternating Copolymers of Isobutyl Vinyl Ether and Maleic Anhydride

Since the copolymers of maleic anhydride, a cyclic monomer, and vinyl ethers, such as isobutyl vinyl ether, are made of rigidly alternating monomer unit sequences, quasi "isotactic" and quasi "syndiotactic" configurations for the monomer unit diads and triads are proposed considering the relative orientation of the cyclic anhydride group and the ether side chain with respect to the copolymer backbone.     

RADIATION INDUCED SOLID-STATE POLYMERIZATION OF ACETYLENEDICARBOXYLIC ACID

ABSTRACT

Radiation induced solid-state polymerization of acetylenedicarboxylic acid was carried out at room temperature in open atmosphere and under vacuum conditions. The gray colored powder polymer obtained was insoluble in most common solvents but only partially soluble in DMSO and THF. The limiting conversion to polymer was about 5%. The polymer was characterized by IR, UV, DP-MS, DSC, TGA, and XRD. The mechanism of polymerization was elucidated from the available data. Polymerization followed a free radical mechanism. However, before the addition of monomer molecules to the growing chain, at least one of the carboxylic groups of the monomer breaks away as CO or CO₂. The formation of side group cyclization takes place. At least one of the bonds in the side cyclic group is an etheric bond. The DSC, TGA, and XRD results showed that the polymer was partially crystalline and showed no melting up to 1200°C. The mechanism of polymerization and assigned chain structure was studied by the direct pyrolysis mass spectrometric method.

The crystal structure of monomer and polymer was investigated by the XRD method. Both monomer and crystalline polymer were monoclinic with similar cell parameters. Thus, the polymerization follows a topotactic mechanism. The unpolymerized monomer retains its crystal structure and, therefore, CO or CO₂ in the monomer molecule has to be eliminated before polymerization could take place.     

Long branching in poly(vinyl acetate) and poly(vinyl alcohol). II. Polymerization of vinyl acetate in the presence of crosslinked poly(vinyl alcohol)

It is a common view that poly(vinyl acetate) has many branches at the acetyl side group, but that the corresponding poly(vinyl alcohol) has little branching. In order to study the branching in poly(vinyl acetate) and poly(vinyl alcohol) which is formed by chain transfer to polymer, the polymerization of ¹⁴C-labeled vinyl acetate in the presence of crosslinked poly(vinyl acetate), which was able to be decrosslinked to give soluble polymers, was investigated at 60°C and 0°C. This system made it possible to separate as well as to distinguish the graft polymer from the newly polymerized homopolymer. Furthermore, the degree of grafting onto the acetoxymethyl group and onto the main chain were estimated. It became clear that, in the polymerization of vinyl acetate, chain transfer to the polymer main chain takes place about 2.4 times as frequently at 60°C as that to the acetoxy group and about 4.8 times as frequently at 0°C.     

手性化合物环境下制备甲壳型液晶高分子

甲壳型液晶高分子的研究是我国独创[1 ,2 ] ,已产生了积极的科学影响 .虽然它们在化学结构上属于侧链型 ,但在分子形态上更接近于主链型液晶高分子[3] .由于庞大的液晶基元对空间的要求 ,液晶高分子主链被迫采取尽可能伸展的构象[4,5] .然而 ,至今尚不清楚主链与液晶基元之间是怎样协同作用以形成有序结构 .本文探索了在不同手性化合物环境下制备单手螺旋链甲壳型液晶高分子的可能性 .尽管最后并未获得螺旋链高分子 ,但仍取得了一些有价值的结果 .手性化合物环境分别是 ( )薄荷醇 ( 1 )作为反应溶剂、( )过氧化 二 (碳酸薄荷醇酯 ( 2 )作…     

一种侧链液晶高分子的合成与表征

合成了一种主链为甲基丙烯酸酯 ,侧链是三个苯环以酯键相连的介晶基元 ,柔性间隔段为两个亚甲基的新的侧链液晶高分子 .聚合物和单体的化学结构、液晶相转变和液晶态织构采用红外光谱、核磁共振、偏光显微镜、差热分析和广角X光衍射进行了表征 .研究表明 ,单体呈现近晶相和向列相两个液晶相 ,聚合物在很宽的温度范围内呈向列相 .该单体和聚合物在一定条件下可形成固化诱导条带织构     

Ferroelectric liquid crystalline polymers based on mesogens with halogen-containing terminal groups

A new series of halogen-containing side chain ferroelectric liquid crystal polymers was synthesized. Mesophases were characterized by differential scanning calorimetry, polarizing optical microscopy, X-ray diffraction and molecular simulation. The behaviour of the liquid crystalline phase was investigated with variation of chiral centres, spacer units and grafted ratios. It was found that the thermal stability and temperature range of the chiral smectic C phase decreased with increasing length of the oligo-oxyethylene spacer, and decreasing mesogenic group content. The bulky substituent attached to the chiral centre reduces molecular packing in smectic liquid crystal phases, which disturbs the orientation of the side chain liquid crystal polymer. Furthermore, the influence of molecular structure on electrooptical properties of FLCPs has been studied by broad band dielectric spectroscopy (from 0.1 to 1 ×10 6 Hz).     

A facile synthetic strategy for hyperbranched polymer via combining free radical telomerization and polycondensation

A facile strategy combining free radical telomerization and polycondensation to prepare hyperbranched polymers was developed. By selecting a suitable telogen and a vinyl monomer, the product obtained by telomerization could be regarded as an AB_n type monomer for preparing a hyperbranched polymer via conventional polycondensation. The principles for selecting vinyl monomers and telogens were proposed. The feed ratio of vinyl monomer to telogen was discussed in the theory. For demonstrating the strategy, methyl (meth)acrylate (MA or MMA) and 2‐mercaptoethanol were used as a vinyl monomer and a telogen, respectively. The two‐unit adduct of MA or MMA obtained after purifying was regarded as a model ABB′ monomer. The sequential transesterification demonstrated that the carboxylate group at the terminal unit has higher reactivity than that at penultimate unit because of the different substituents at the respective α‐positions, resulting in lower degree of branching (DB) of obtained polymer. As substitutes, 2‐hydroxyethyl (meth)acrylate and thioglycolic acid were used as a vinyl monomer and a telogen, respectively. The results showed that the hyperbranched polymer obtained by using pseudo one‐pot approach had moderate DB. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 46: 7543–7555, 2008