可控交联聚醚醚酮的动态力学性能

动态力学分析技术(DMA)是研究聚合物性能的重要方法之一．动态力学实验可以检测聚合物的玻璃化转变温度和次级松弛过程,直接与聚合物的链结构和聚集态结构密切相关,聚合物的化学组成、支化和交联、结晶和取向、增塑和共混等结构因素的变化,都与分子运动状态的变化密切相关,而分子运动的变化又能灵敏地反映在动态力学性能上,     

交联型聚芳醚砜两亲嵌段聚合物的合成与表征

首先分别合成了主链上含有查尔酮结构的疏水段和侧链上含有叔胺的亲水段,然后通过疏水段与亲水段的末端缩合反应合成了一系列光敏性聚芳醚砜两亲嵌段聚合物,其结构和热性能分别通过1 H NMR,FT-IR,UV-Vis光谱,TGA和万能力学试验机等进行表征测试.该两亲性嵌段聚合物具有良好的溶解性、热稳性、力学性能和光敏性,在紫外光谱322nm处有最大吸收峰,在常温下经紫外光照射,分子链之间发生[2+2]环加成反应,聚合物分子之间形成交联结构,最大交联度可达到64%.     

链缠结对聚合物结晶行为的影响

链缠结是聚合物分子链相互作用的一种形式 ,它主要影响分子链的长程运动 .自链缠结的概念被提出以来 ,人们对聚合物粘弹性、流变行为和网络平衡力学等进行了理论研究和实验验证 .然而 ,在聚合物结晶领域 ,链缠结对结晶过程的影响一直存在着很大的争论 .Flory等 [1] 认为 ,聚合物结晶时分子链根本没有足够的时间进行构象调整 ,分子链进入晶格后 ,使大量的缠结链段被挤入非晶区 ,并由此建立了聚合物结晶“插线板”模型 .Hoffman等 [2 ]根据单根分子链从过冷熔体“卷饶”到晶体前沿所需的时间进行估算 ,结果比 Flory预言的快约 3～ 5个数量级…     

含聚氧化乙烯侧链的聚合物凝胶电解质的动态力学性能和离子导电性

红外测试结果表明：产物是含聚氧化乙烯侧链的聚合物。该聚合物电解质的室温电导率为10^-3S／cm数量级。并用动态力学方法,研究了分子链段活动性与聚合物凝胶电解质组成(增塑剂含量、含盐量和盐种类)的关系。     

用核磁共振方法研究弱交联高分子体系的微观运动状态及微观结构特征

用核磁共振１３Ｃ自旋－自旋弛豫时间Ｔ２表征了以离子微区为表观交联点的以甲基丙烯酸丁酯－丙烯酸共聚物为基础的弱交联高分子体系的微观链运动特征，及体系中溶剂分子的运动特征，结果表明：聚合物主链表现为快、慢两种运动状态，聚合物体系存在多相结构；溶剂分子也表现出两种不同的运动状态，从而间接反应了聚合物体系的微观结构。     

计算机模拟研究聚合物纳米复合材料的分散与界面

针对聚合物纳米复合材料,系统综述了计算机模拟技术(分子动力学模拟)在纳米颗粒的分散与聚合物-纳米颗粒界面作用取得的成果与进展,包括不同形状纳米颗粒在聚合物基体的分散机理、相行为与微观结构、纳米颗粒对分子链构象的影响(分子链均方回转半径的变化)、分子链在纳米颗粒表面结构(取向与排列)、分子链与纳米颗粒界面作用能、界面区分子链活动性与纳米颗粒形成的网络结构.为构建聚合物纳米复合材料的组成、结构与性能之间的关系,提出了3个模拟方面的挑战,包括发展长时间跨尺度计算机模拟技术、建立准确模拟材料力学性能的方法与导电导热功能性的模拟.     

聚合物力化学的单分子力谱研究

研究聚合物在力致结构转变过程中的分子机制,进而建立起材料的构效关系,对于力响应聚合物材料的设计和精准制备至关重要.然而由于真实材料体系的复杂性,使用传统的测量方法很难从分子水平精准表征上述过程.基于原子力显微镜(AFM)的单分子力谱(SMFS)可以操纵单个聚合物链,是一种研究单个分子力学和动力学性质的有效技术.本文首先重点介绍了力化学的基本概念、影响因素和自由聚合物链单分子力化学的最新进展,按照共价键、配位键及氢键体系的顺序展开.然后讨论了SMFS技术在凝聚态体系的单链力学响应中的应用,包括用于聚合物单晶研究的AFM-SMFS方法的建立,链组成、构象、折叠模式以及环境对力诱导聚合物单晶熔融和纳米力学性能等影响规律的探究.希望本文将引起材料、化学和计算研究界的进一步关注,并加深科研人员们对聚合物结构-性质(功能)关系的理解.     

二苯醚两端苯环取向的量子化学研究

二苯醚两端苯环取向的量子化学研究＊叶世勇沈良骏（安徽师范大学化学系芜湖２４１０００）关键词二苯醚构象半经验量子化学方法主链含苯环的聚合物内苯环相对于主链角架面的取向与聚合物的某些力学性质如γ－松弛等直接有关。二苯醚是研究这类聚合物的一种有用的模型分子...     

高聚物化学结构与玻璃化转变温度间的关系

緒言高聚物在某一给定溫度下的物理性质,特别是力学性质,强烈的依赖其分子链的柔性。因此,对高聚物分子链运动状况的研究,如象聚合物组成结构与分子链运动的关系,以及溫度对分子链运动影响的研究,无论在理论上或实用上都有其重要的意义。与高聚物聚集态分子链运动状态有关的玻璃化转变,仍是高分子主链链段在观察的时间范围內来得及自由內旋转的松     

多相聚合物微观结构和分子间相互作用的固体NMR研究

近年来固体核磁共振(NMR)技术在聚合物材料表征领域正发挥着越来越重要的作用,已经成为研究聚合物微观结构、链段动力学、分子间相互作用等微观信息及阐明材料结构-功能-性质关系必不可少的重要手段.本文将综述我们近年来系统构建和发展的固体NMR方法及其在研究多相聚合物微观结构、分子间相互作用和交联网络等问题中的应用.此外,针对存在不均匀性动力学的多相聚合物体系,我们发展了增强固体NMR谱图灵敏度的新方法.     

A detailed discussion of the influence of the amount of deposited polymer on the retention properties of polymer-coated silicas

Problems of the modification of the surface of micro-spherical silica gel with layers of polymer and the influence of the quantity of the coated polymer on the chromatographic properties of the resulting sorbents have been considered. The polymer modification of the surface of wide-pore micro-spherical silica gel obtained by means of hydrothermal treatment of the meso-porous silica gel under autoclave conditions is described. The polymer layer itself is formed by an octadecylmethacrylate-methylmethacrylate co-polymer. As a result, packings for RP-HPLC were obtained. An increase of the capacity factor (k) has been observed with an increase of the quantity of the polymer deposited during the polymer modification process. The indicated phenomenon depends on the increase of the number of C18 groups in the packing.     

On the origin of mesoscopic inhomogeneity of conducting polymers

The mesoscopic inhomogeneity of conducting polymer films obtained by electropolymerization and spin-coating was studied using Kelvin probe force microscopy (KFM) and current-sensing atomic-force microscopy (CS-AFM). A well-pronounced correlation was established between the polymer morphology, on the one hand, and its local work function (which is related to the polymer oxidation degree) as well as polymer conductivity, on the other. The most conducting regions were associated with the tops of the polymer grains and showed Ohmic behavior. They were surrounded first by semiconducting and then by insulating polymer. The conductivity of the grain periphery could be lower by as much as 2 orders of magnitude. The grain cores also showed consistently higher values of the local work function as compared to the grain periphery. This fact suggested that the grain cores were more oxidized and/or more ordered as compared to the grain periphery, which is in good agreement with the local conductivity data. More uniform morphology corresponded to less variability in the other properties of the polymer. A model is proposed that relates the observed inhomogeneity to preferential deposition of polymer molecules with higher molecular weight at the early stages of the polymer phase formation. The polymer deposition in either electropolymerization or various solution-casting techniques involves the nucleation of a new phase from a solution containing polymer fractions of different molecular weights. The driving force of the nucleation process depends on the solubility of the polymer fractions, which decreases with an increase in the molecular weight. This gives rise to preferential deposition of more crystalline, higher molecular weight polymer at the early stages of the polymer deposition to form the cores of the polymer grains. The fractions with lower molecular weights are deposited later and form less ordered/less conducting grain periphery. On the basis of this model, we conclude that, to ensure the formation of materials with low inhomogeneity and high quality, one should use the starting polymer with as narrow molecular weight distribution as possible. Yet another possibility is to use solvents which would reduce the differences in the solubilities of polymer fractions with different molecular weight.     

The effect of different stabilizers on the formation of self‐assembled porous film via the breath‐figure technique

The Breath‐Figure technique was employed to imprint honeycomb structures in the polymer films via the condensation of water vapor on the surface of an evaporating polymer solution. Generally, the condensed water droplets can be stabilized by an end‐functional polymer or by particles added to the polymer solution. In this study, we carried out a systematic experiment on the effect of different stabilizers on the porous honeycomb structure under identical physical conditions. The end‐functional polymer produced a large area of regular spherical bubbles, whereas adding particles to the polymer solution leads to smaller arrays of the flattened bottom bubbles. The separation length between pores was larger for polymer/particle sample than that of the end‐functional polymer films. In the regular area of polymer/particle film many bubbles were not decorated by particles. © 2011 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 49: 1430–1436, 2011     

剪切流动对聚合物共混物相行为影响的研究进展

剪切流动对聚合物共混物相行为影响的研究进展;综述     

The study of structure formation in a polymer-containing ionic liquid in terms of the integral equation theory

The structural properties of a polymer-containing ionic liquid under the conditions of good solubility of a flexible polymer are studied theoretically. Two systems are discussed: In one, polymer solubility is due to the presence of specific interaction between polymer chains and solvent cations; in the other, polymer solubility is due to the presence of specific interactions between the polymer and solvent anions. The dependences of the structural characteristics of a solution on the polymer concentration and the energy of attraction between polymer chains and solvent ions are calculated. In a semidilute polymer solution, long-range correlations of polymer chains with a power dependence of the characteristic scale of ordering on the polymer density appear. The conditions under which, along with the intermediate ordering typical of a pure ionic liquid, the long-range ordering of the solvent cations and anions occur after addition of a polymer to the ionic liquid are studied.     

The effect of polymer chain length and surface density on the adhesiveness of functionalized polymersomes

Giant cell-like polymer vesicles, polymersomes, made from the diblock copolymer poly(ethylene oxide)-polybutadiene (PEO-PBD), have bilayer structures similar to the cell membrane but have superior and tunable properties for storage and stability. We have modified the terminal hydroxyl of the hydrophilic block with biotin-lysine (biocytin), a biologically derived group that imparts specific adhesiveness to a polymer colloid coated with avidin. The functionalized polymer will form vesicles, either on its own or when mixed with unmodified block copolymers that also form vesicles. The incorporation and mixing of the functionalized polymer into vesicle bilayers is measured using a fluorescent version ofbiocytin with confocal microscopy. The fluorescence signal associated with the vesicle is in proportion with the concentration of functional polymer added during vesicle construction. The adhesiveness of polymer vesicles containing functionalized biotinylated polymer to avidin coated microspheres is measured with micropipet aspiration. Two types of polymer vesicles were constructed: one where the functionalized polymer (molecular weight (MW), 10400 Da) was longer than the surrounding unfunctionalized polymer (MW, 3600 Da) and one where the functionalized polymer (MW, 10400 Da) was the same length as the unfunctionalized polymer. In all cases, the avidin-biotin bonds form kinetically trapped crossbridges that impart little tension as they form but require significantly more tension to break. The relative length of the functionalized polymer on the surface of the vesicle is an important determinant for the adhesion of a polymer vesicle but not for the adsorption of soluble avidin. Greater adhesion strengths are seen where the functionalized polymer is longer than the surrounding polymer. The concentration of functionalized polymer at which adhesion is maximal depends on the relative lengths of the polymers. When the functionalized polymer is the same length as the surface brush of the polymersome membrane, the critical tension is maximal at 10 mol % functionalized polymer concentration. However, when the biocytin groups are attached to a polymer which is larger than the surface brush, the critical tension is maximal at 55 mol % functionalized polymer. These results indicate that polymer mixing and length can control the interfacial adhesion of polymer brushes and must be understood to tune polymersome adhesiveness.     

Modeling of the optical anisotropy of a dye polarizer

A new model has been developed to account for the dependence of the optical anisotropy of a dye polarizer on the dye concentration. The effect of the dye concentration has been studied through an examination of the changes in the orientation distribution of the polymer. The model takes into account the intrinsic optical anisotropy of the dichroic dye, the polymer orientation, the polymer orientation distribution, and the dye orientation with respect to the polymer. It is assumed that (1) the orientation distribution function of the polymer segments can be expressed as an elliptical distribution function and that (2) the free rotation of each dye molecule on its axis is suppressed because of the attraction force between the dye molecules and the polymer chains. The pseudo‐order parameter, which takes into account the aforementioned assumptions, determines the relation between single‐piece transmittance and polarizing efficiency. The orientation distribution of the polymer molecules in the experiment and its effect on the optical performance of a polarizer are quantitatively determined. The model predicts that the effect of the orientation distribution becomes more significant as the polymer chains are oriented more highly. © 2002 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 40: 1363–1370, 2002     

A Study of the Redistribution Conditions of Carbon Black Particles from the Bulk to the Interface in Heterogeneous Polymer Blends

The redistribution conditions of carbon black particles to the interface between polymers were studied based on the measurement of the value of superadditive conductivity of several heterogeneous polymer blends filled with powdered carbon black. The redistribution of carbon black from the polymer phase that has low ability to wet the powder proceeds efficiently only to the boundary with polymer having better wetting ability. Significant differences in the conditions of particle localization at the boundaries between polymer phases and between two low-molecular-weight liquids arising from the specific features of polymer adsorption were demonstrated.     

A viscosity self-oscillation of polymer solution induced by the Belousov-Zhabotinsky reaction under acid-free condition

We succeeded in measuring a viscosity self-oscillation induced by the Belousov-Zhabotinsky (BZ) reaction for a polymer solution on the constant temperature condition under acid-free condition. The polymer chain is consisted of N-isopropylacrylamide, ruthenium complex as a catalyst of the BZ reaction, and an acrylamide-2-methylpropanesulfonic acid (AMPS) as a pH and the solubility control site. The viscosity self-oscillation for the AMPS-containing polymer solution was attributed to the difference between viscosities for the polymer solution in the reduced and oxidized states. The effects of the polymer concentration and the temperature of the polymer solution on the viscosity self-oscillation were investigated. As a result, the viscosity self-oscillating behavior significantly depended on the polymer concentration and the temperature of the polymer solution. The period of the viscosity self-oscillation decreased with increasing temperature in accordance with the Arrenius equation.     

填料对聚合物共混物相分离行为的影响

近年来,由于粒子填充聚合物共混物的广泛运用,复合材料的结构研究具有重要意义.除了研究粒子在聚合物中的分散外,关于粒子对聚合物共混物的相分离影响也做了大量工作.研究结果表明粒子的尺寸,粒子的表面处理以及粒子含量对聚合物共混物相分离热力学以及动力学有重要影响.由于粒子对聚合物组分的选择吸附、聚合物分子对粒子的润湿作用、填料对聚合物相区生长的阻碍导致了聚合物共混物-填料体系相行为的复杂性.本文扼要地综述了聚合物共混物-填料体系相分离的理论基础以及实验结果,介绍了粒子对相分离的影响因素,并展望了该领域的研究趋势和前景.