抗冲共聚聚丙烯结构研究进展

综述了已广泛应用于汽车及家电行业的抗冲共聚聚丙烯结构的研究进展,重点介绍了抗冲共聚聚丙烯组成、链结构及聚集态结构的研究方法及研究进展。阐述了典型抗冲共聚聚丙烯的组成、链结构及聚集态结构,总结了研究抗冲共聚物组成、链结构以及聚集态结构的研究方法。同时还回顾了聚合工艺条件对抗冲共聚聚丙烯的组成及链结构的影响规律以及组成及链结构对材料聚集态相结构的影响规律。最后重点回顾了异质多相体系的组成、链结构及聚集态相结构与性能之间的关系,展望了抗冲共聚聚丙烯领域的某些可能发展方向。     

新型苯并噁唑侧基聚酰亚胺的合成、结构与性能研究

为了改善聚酰亚胺的不溶不熔性, 一类可溶性苯并噁唑侧基聚酰亚胺树脂被成功制备. 从合成的新型二元胺单体出发, 制备了侧链为邻羟基苯胺酰胺结构的聚酰亚胺体系, 进一步催化环化邻羟基苯胺酰胺为苯并噁唑结构, 并对这两类不同结构的聚合物树脂进行了红外光谱的结构表征, 以及最终成膜的力学性能和耐热性能测试. 研究结果表明: 苯并噁唑侧基聚酰亚胺的力学性能优于相应的主链型聚酰亚胺, 且TGA分析表明, 其初始分解温度高达597 ℃, 有望用于航空航天方面高强、高模、耐高温的结构材料.     

高聚物的力学性能

力学性能,从其应用的广泛程度来说,是高聚物最重要的一种性能。三大合成材料:塑料、纤维、橡胶的应用都离不开它们的力学性能。从高分子物理的角度研究力学性能的目的是弄清高聚物力学性能的一般规律和特点以及结构(链结构、聚集态结构)和力学性能间的相互关系。这种相互关系包括了结构因素对力学性能的影响以及力学作用对高聚物结构(主要是聚集态结构)的影响。     

从天然动物丝到丝蛋白基材料的研究

作为具有优异综合力学性能的天然蛋白质纤维,丰产的动物丝特别是蚕丝长期伴随着人们的日常生活,近十余年来,各种具有特色的功能性丝蛋白基材料更是层出不穷.但在探索动物丝和丝蛋白基材料的过程中,动物丝纤维是经由蚕或蜘蛛等动物的纺器而纺制得到的简单事实往往被忽视;换言之,动物丝实际上是动物对丝蛋白进行体内“加工”后的产物,也是丝蛋白基材料中的一种.因此,天然动物丝中独特的各等级间构效关系与丝蛋白基材料的构效关系之间并不存在着必然的传承效应.本文着重介绍了我们在对动物丝和丝蛋白基材料探索中的经验和体会,即在强调以丝蛋白分子链结构与性能及其之间的关系为研究重点的基础上,从比较和发掘各种天然动物丝的特性入手,进而了解丝蛋白分子链在本体和溶液中的行为,并通过对动物丝蛋白分子链聚集态结构的调控,以达到设计制备一系列多形貌和多功能的动物丝蛋白基材料的目的.     

可溶性聚酰亚胺类偶氮高分子的合成与表征

用聚合物的后重氮偶合方法合成了以可溶性聚酰亚胺为主链 ,偶氮生色团为侧基的新型偶氮高分子 ,并通过引入线性长链烷烃侧基来提高聚合物的溶解性 .采用红外光谱、氢核磁共振、紫外光谱和热分析等手段 ,对产物的结构、热性能及光学性能等进行了表征 .该聚合物膜在氩离子干涉激光的照射下形成正弦波形的表面起伏光栅 ,起伏深度可达 2 0 0nm .     

手性丙烯酸酯侧链液晶共聚物的研究

手性丙烯酸酯侧链液晶共聚物的研究何流，张树范，漆宗能，王佛松（中国科学院化学研究所北京１０００８０）关键词手性液晶，近晶相，丙烯酸酯共聚物侧链液晶聚合物既具有小分子液晶的光电敏感性，又具有高分子聚集态结构性质，在光学记录、贮存和显示材料领域有潜在的实...     

沉淀剂对含有氨侧基的聚苯撑乙炔发光性能的影响

通过单体4-[(2,5-二溴苯)乙炔基]苯胺和1,4-二乙炔基-2,5-二戊氧基苯之间的Sonogashira偶合反应合成了带有p-氨基苯乙炔基共轭侧基的聚对苯撑乙炔（(PAnPE）). 该共轭聚合物的THF溶液（(2××10-－5 mol•·L-－1）)在473和519 nm处呈现两个比较强的荧光发射峰. 通过调节在聚合物PAnPE-THF溶液中所加入三种沉淀剂（(甲醇、乙酸、稀盐酸溶液）)的体积比例, 来改变PAnPE分子链的聚集态结构, 进而研究对其发光性能的影响规律. 实验结果表明: 由于沉淀剂与聚合物PAnPE分子链之间相互作用能力与方式的不同, PAnPE两个荧光峰的发射强度因聚合物分子链聚集结构不同而呈现不同的变化规律, 这有助于实现在化学传感器中的应用.     

（甲基）丙烯酸酯及其共聚体系L′IPN的合成和性能研究Ⅱ．（甲基）丙烯酸酯及其共聚体系L′IPN的阻尼性能和力学性能

通过动态力学谱试验（ＤＭＳ）、应力－应变测量，研究了以丙烯腈、苯乙烯、醋酸乙烯酯等单体为共聚组分引入全（甲基）丙烯酸酯Ｌ′ＩＰＮ（胶乳型互穿聚合物网络）中对共混体系阻尼性能、力学性能的影响，发现通过无规共聚引进不同链结构能有效调节材料室温域的阻尼水平；初步探讨了ＩＰＮ（互穿聚合物网络）中某些组分侧链（基）结构对阻尼性能的影响规律及可能原因；本文所研究的ＩＰＮ体系在力学（物理）状态上处于皮革态，而交联密度、组分含量等对ＩＰＮ的力学性能具有较为复杂的影响。     

分子基材料聚集态结构的场发射性质研究

场发射在扫描电子显微镜、平面显示器、压力传感器、加速度传感器以及电子束可寻址记忆器件等许多领域中得到了广泛的应用,分子基材料由于其结构和能带可设计,性质可调和柔性易加工等显著特点,被认为是新一代的场发射材料。本文综述了近年来分子基材料聚集态结构的场发射性质研究的新进展,特别是分子基材料的结构和聚集态形貌和尺寸对场发射性质的影响以及通过对分子基材料的杂化优化其场发射的性质,展望了分子基材料聚集态结构场发射的应用前景和发展趋势。     

含电子给体-受体的交叉共轭聚合物合成及其离子传感性能

在芴苯结构主链中引入苯并噻唑作为电子受体、侧链上引入N,N-二丁基苯胺作为电子给体,通过Suzuki反应制备了新型交叉共轭聚合物P1,同时合成主链中不含苯并噻唑的芴苯类共聚物P2作为对比;对两者的化学结构和光物理性质进行了表征,并研究了聚合物对离子的光学传感性能.实验和模拟计算结果均表明,P1中存在着强的分子内电荷转移效应;引入电子给体和受体(D-A)能够有效地调控交叉共轭聚合物的光学特性,这种D-A型交叉共轭聚合物是一类潜在的具有荧光增强性能的化学传感材料.     

Sandwich layer structure of a novel polyimide with methylene spacing groups in biphenyl side chain

The aggregation structure of a novel polyimide (PI-6) with six methylene flexible spacing groups in biphenyl side chain was investigated using polarized optical microscope (POM), wide/small-angle X-ray diffraction (WAXD/SAXD) and molecular simulation approach. Depending on increasing temperature, the sandwich layer aggregation structure of PI-6 was developed from the thermo reversible gel. The backbones are lamellar stacking with 11.5 Å thickness. The side chains are randomly packed into the backbone lamellar intervals and the width of this layer for both backbone and side chain is about 23.1 Å which is consistent with the simulation data.     

Novel bent-shaped liquid crystalline compounds II. Synthesis and properties of the 1,3-bis4-[4-(4-alkyloxybenzoyloxy)benzylidene]aminophenoxypropan-2-ols

A series of new symmetric dimer compounds was synthesized, constaining 2-hydroxy-1,3-dioxypropylene as the central linkage and terminal alkyl chains with different lengths. The chemical structures of the liquid crystal dimers (2ES-n) were examined by FTIR and ¹H NMR spectroscopy. Their mesomorphism, thermodynamic properties and optical textures were investigated by differential scanning calorimetry, polarizing optical microscope and X-ray diffraction. For homologues with terminal propyloxy and butyloxy chains, no liquid crystalline phase was observed. Homologues with pentyloxy and hexyloxy terminal chains showed nematic phases, while those with heptyloxy, octyloxy, nonyloxy and decyloxy terminal chains displayed nematic phases and smectic phases. The results confirmed that the liquid crystalline phase changes from nematic to smectic as the terminal chain length increases.     

多烷基苯磺酸钠水溶液的表面性质

研究了多烷基苯磺酸钠的结构, 特别是侧链碳原子数的增加, 对其表面活性的影响, 并与其它烷基苯磺酸钠进行了比较. 结果表明, 随着苯环上侧链碳原子数的增加, 多烷基苯磺酸钠的临界胶束浓度(cmc)降低, 但侧链上CH2降低cmc的程度远小于主链上CH2的作用. 当侧链碳原子数增加时, 多烷基苯磺酸钠的饱和吸附量(Γmax)降低, 表现出与主链不同的变化规律. 从多烷基苯磺酸钠的结构解释了cmc和Γmax的变化规律.     

Excited state dynamics and structures of functionalized phthalocyanines. 1. Self-regulated assembly of zinc helicenocyanine

Recently synthesized zinc helicenocyanine (ZnHc), where four helicene groups are fused with a phthalocyanine (Pc) core through all-carbon linkages, exhibits an unusually strong tendency of forming soluble molecular aggregates in organic solvents. The aggregation results in a strong optical absorption across most of the visible region, which is drastically different from that of its monomer. The aggregation is suppressed by dissolving ZnHc in a liquid crystal, octylbiphenylcarbonitrile (OBCN), where the monomer ZnHc dominates and exhibits a typical optical absorption spectrum of monomeric zinc phthalocyanine, except red shift in both Q- and B- bands due to pi-conjugation expansion. This study correlates optical properties and excited state dynamics of ZnHc with intra- and intermolecular electronic interactions, using quantum mechanical calculations and ultrafast transient absorption spectroscopy. Structural details of the aggregates are revealed by small-angle X-ray scattering (SAXS) to be uniformly dimers with alkoxy chains wrapped around the core of a face-to-face dimer. The results suggest that while the peripheral helicene moieties in ZnHc are electronically coupled to the Pc core via expansion of the pi-conjugation of the macrocycle, the coupling is attenuated by the "lock washer" conformation of the nonplanar peripheral helicenes which prevents pi-conjugation throughout the entire macrocycle. The interplay between pi-conjugation expansion in the macrocyle plane and the pi-pi stacking out of the macrocyle plane produces a structure that facilitates the unique optical properties and self-regulated assembly into nanoscale structures in solution. These novel optical properties are explored for potential applications in various areas.     

Well-packed chains and aggregates in the emission mechanism of conjugated polymers

We synthesized dialkoxy-substituted poly[phenylene vinylene]s (dROPPV-1/1, 0.2/1, and 0/1) consisting of two repeating units with different side-chain lengths (methoxy and 3,7-dimethyloctyloxy). These polymers can serve as a model system to clarify roles of aggregates (the sites with ground-state interchain interactions) and the independent chain segments in the well-packed chains (the chain segments that are compactly packed without interaction) in the emission mechanism of conjugated polymers. Due to the packing of polymer chains, films of all of these polymers are accessible to interchain excitations, after which excitons can re-form to result in delayed luminescence. Besides, some chains form aggregates so that the delayed luminescence is no more the ordinary single-chain emission but red-shifted and less structured. Not only the re-formation of these indirect excitons but also the aggregation of chains are facilitated in the polymers with short methoxy side groups, revealing that both packing and aggregation of chain segments require a short spacing between polymer chains. However, the incorporation of other side chains such as the 3,7-dimethyloctyloxy group to dROPPVs is necessary for the formation of aggregates because these long branched side chains can reduce the intrachain order imposed by the short methoxy groups, which accounts for the absence of aggregate emission in the well-studied poly[2,5-dimethoxy-1,4-phenylene vinylene]. This study reveals that the well-packed chains do not necessarily form aggregates. We also show that the photophysical properties and the film morphology of conjugated polymers can be deliberately controlled by fine-tuning of the copolymer compositions, without altering the optical properties of single polymer chains (e.g., as in dilute solutions).     

Development and thermal behaviour of ternary PLA matrix composites

Biodegradable PLA composites were prepared using microcrystalline cellulose (MCC) and silver (Ag) nanoparticles. The main objective of the present study is to develop new biopolymer composites with good mechanical properties, thermal stability, maintaining the optical transparency and also providing antimicrobial properties through silver nanoparticle introduction. Composites were prepared with 1%wt of Ag nanoparticles and 5%wt of MCC using a twin-screw microextruder; film parameters were optimized in order to obtain a thickness range between 20 and 60 μm.PLA composites maintained optical transparency properties of the matrix, while MCC was able to reduce polymer permeability. Thermal analysis revealed that MCC increased PLA crystallinity and the mechanical properties of the composites demonstrated that tensile modulus was improved by microcrystalline cellulose.     

用于氢键组装的星形光电材料的合成与表征

合成了一系列具有光电活性的星状共轭分子, 并在端基上引入了不同个数或不同类型的氢键基团. 包括端基上分别带有1, 2和3个羧酸基团的星状芴分子, 以及结构更为刚性的3个端基均为2,4-二胺基三嗪环的三聚茚分子, 以此形成一个系列的分子结构, 便于进行系统性研究. 同时我们对这些星状分子进行了紫外和荧光光谱的表征, 发现星状核和长烷基侧链能有效地阻止分子间π-π堆积和增大固态薄膜的无定形态. 最终这些功能性分子将有望由氢键诱导在石墨或者金属表面形成有序的自组装结构.     

含酰胺结构超低膨胀聚酰亚胺薄膜的热膨胀行为

采用联苯二酐与3种含酰胺结构二胺制备了具有不同取代基团的聚酰胺-酰亚胺薄膜, 考察了酰胺结构对薄膜力学、 耐热及尺寸稳定性的影响, 研究了聚集态结构与薄膜热膨胀行为的关系和规律. 该系列薄膜具有超高强度和优异的耐热性能, 拉伸强度高达280.5 MPa, 玻璃化转变温度在389~409 ℃, 并在30~300 ℃温度范围内表现出超低负膨胀, 热膨胀系数(CTE, ppm/℃, 即10 ⁶ cm·cm ^-1·℃ ^-1)在-3.05~-1.74 ppm/℃之间. 聚集态分析结果表明, 酰胺结构使分子链间形成了强氢键相互作用, 分子链在薄膜面内方向高度有序取向, 并在膜厚方向堆积更为紧密, 使薄膜表现出热收缩现象. 通过不同体积大小的取代基团进一步调控分子链间相互作用及排列堆积, 可实现薄膜在高温下近乎零尺寸形变, 为设计制备超低膨胀聚合物基板材料提供了新思路.     

Combination of an aromatic core and aromatic side chains which constitutes discotic liquid crystal and organogel supramolecular assemblies

This paper reports unique and unusual formations of columnar liquid crystals and organogels by self-assembling discotic molecules, which are composed of an aromatic hexaazatriphenylene (HAT) core and six flexible aromatic side chains. In HAT derivatives 3a, with 4'-(N,N-diphenylamino)biphenyl-4-yl chains, 3b, with 4'-[N-(2-naphthyl)-N-phenylamino]biphenyl-4-yl chains, and 3c, with 4'-phenoxybiphenyl-4-yl chains, the two-dimensional hexagonal packings can be created by their self-assembling in the liquid crystalline phase, which were characterized by polarizing optical microscopy, differential scanning calorimetry, and X-ray diffraction analysis. In certain solvents, HAT molecules 3a-c can form the viscoelastic fluid organogels, in which one-dimensional aggregates composed of the HAT molecules are self-assembled and entangled into three-dimensional network structures. The organogel structures were analyzed by scanning electron microscopy observation, (1)H NMR, UV-vis, and circular dichroism spectroscopy. In contrast to 3a-c, none of the liquid crystalline and organogel phases could be formed from 3d and 3e with short aromatic side chains including a phenylene spacer, and 3f (except a few specific solutions) and 3g without terminal diarylamino and phenoxy groups. In 3a-c, the aromatic side chains with terminal flexible groups make up soft regions that cooperatively stabilize the liquid crystalline and organogel supramolecular structures together with the hard regions of the hexaazatriphenylene core.     

聚甲基丙烯酸4［（4’－烷氧酰基—1’—疏酰基苯）－1－羟乙氧基苯基］酯的合成

聚甲基丙烯酸４［（４’－烷氧酰基—１’—疏酰基苯）－１－羟乙氧基苯基］酯的合成张维邦，蒋，许家瑞，曾汉民（中山大学材料科学研究所广州５１０２７５）关键词侧链液晶高分子，含硫液晶单元液晶的合成侧链高分子液晶是高分子学科中非常活跃的研究领域“’，其特点是...