一种新型甲壳型液晶高分子的设计与合成

This paper describes the synthesis and free radical polymerization of 2,5 bis(4′ alkyloxyphenyl)styrene(M n ) for mesogen jacketed liquid crystal polymers(MJLCPs), where p terphenyl subsituted by alkoxy groups at both ends was used as mesogenic unit. Because of the absence of the polar linkage groups, such as —COO— or —CONH— as employed in the previous reported MJLCPs, M n is believed to be polymerized easily by both free radical polymerization and ionic polymerization. The chemical structure of M n was proved by 1H NMR, mass spectrometry and elementary analysis. Their phase transition and liquid crystallinity were characterized by DSC and POM. Although M 1, M 2, M 3 and M 4 exhibited monotropic nematic mesophase, M 5 displayed enantiotropic nematic mesophase presumably because of its decreased melting transition temperature. All monomers were easily polymerized to moderately high molecular weight polymers. At elevated temperature above T g, poly[2,5 bis(4′ alkoxyphenyl)styrene] showed a very stable mesophase. The formed birefrigence did not disappear until thermal decomposition started. Compared to other MJLCPs, the polymers reported here have much higher thermal stability. [WT5HZ]

分子量和末端基长度对甲壳型液晶高分子液晶性的影响

用TEMPO调控的“活性”自由基聚合反应合成了一系列控制分子量、分子量分布较窄、末端基长度不同的甲壳型液晶高分子：聚[2，5-双(4'-乙氧基苯氧羰基)苯乙烯](PEPCS)，聚[2，5-双(4'-丙氧基苯氧羰基)苯乙烯](PPPCS)，聚[2，5-双(4'-丁氧基苯氧羰基)苯乙烯](PBPCS)(如表1所示)。 研究了分子量和液晶基元末端基长度对聚合物液晶性的影响。结果表明：(1)分子量与聚合物的液晶性密切相关，分子量越大，液晶性越强；(2)液晶基元末端烷氧基的长度对液晶性有很大影响，随着烷氧基的增长，具有相似分子量的PEPCS、PPPCS和PBPCS的液晶性逐渐降低。 首次发现非晶热致性液晶高分子在降温过程中液晶相结构被破坏的现象。……

甲壳型液晶高分子的一种非寻常热致液晶行为

A mesogen-jacketed liquid crystal polymer,poly{2,5 -bis［(4′-hexyloxyphenyl)oxycarbonyl］styrene}(PHPCS),with number-average d molecular weight of 1.28×１０5 and polydispersity of 1.48 was prepared vi a 2,2,6,6 -tetramethyl-piperidinyloxy mediated free radical polymerization.The thermotr opic behavior was studied by a combination of differential scanning calorimetry, thermogravimetry,polarized optical microscope and wide-angle X-ray diffracti on.PHPCS was not crystalline over the entire temperature region studied.On hea ting,PHPCS first became an isotropic melt at glass transition temperature (T g) and then a mesophase at temperatures much higher than T g.On subseq uent cooling,the formed ordered phase disappeared above T g.Contrary to t heoretical predictions and previous experimental observations,the transition fr om isotropic melt to liquid crystalline phase was an endothermic process and th e order-disorder transition took place with concurrence of heat release.

利用柔性单体构筑液晶高分子

通常，液晶高分子都含有被称为液晶基元的刚性成分以维持液晶相的分子取向序。常见的液晶基元含有2个以上对位相连的苯环，如二联苯、苯甲酰氧基苯等。已知聚对苯二甲酸乙二酯不能生成液晶相，而联苯二甲酸乙二酯却是液晶性高分子，其区别即在于前者只含有孤立的苯环而后者则含有可以维持液晶相结构的联苯型液晶基元。不过，液晶相结构除了通过液晶基元稳定外，还可以通过高分子的超分子组装实现。在我们最近开展的一系列研究中已经发现，利用甲壳型液晶高分子设计思想合成的各种聚（乙烯基对苯二甲酸环烷酯）都能生成稳定的热致液晶相，尽管在这些分子中不存在传统意义上的液晶基元（1，2）。本文报告一个以柔性的对苯二甲酸双烷基酯为侧基的聚乙烯，聚（乙烯基对苯二甲酸-4-庚酯）的合成与性质。……

一类新型对三联苯液晶化合物的合成与表征

对三联苯是一类得到广泛应用的液晶构筑单元。与其它以二个或多个苯环通过酯、酰胺、偶氮等基团连接而成的液晶构筑单元相比它们具有更好的光、电、热稳定性。此外，强的п-Л相互作用也更有利于液晶分子的自组装。 近来，我们合成了一系列新的含对三联苯的小分子液晶化合物：4，4”-二烷氧基-2'-甲基-对三联苯(n=1～12，n=10曾有报道，如图1所示))，除了可以系统研究末端基的长度对该类化合物液晶性的影响外，利用中间苯环上甲基氢原子的化学活泼性还可以比较容易地赋予其其它功能，如转化为甲壳型液晶高分子单体、新型两亲分子等。 用1H NMR、质谱和元素分析对所有化合物的化学结构进行了严格表征，用DSC、POM和X射线衍射对液晶相结构及转变进行了初步表征。结果表明：该类化合物都具有双向热致液晶性，相转变温度随着末端烷氧基上亚甲基数目的增加有规律地变化。末端基越长，越有利于形成近晶型液晶。n=1～8和n=12的化合物分别只能形成向列型和近晶型液晶，n=9～11的化合物既可以形成近晶型液晶，又可以形成向列型液晶。……