聚合物的表面光接枝改性

本文总结了利用紫外光接枝改性聚合物表面的研究进展，对接枝方法，接枝证明。接枝结构、实验条件对接枝的影响以及其广泛的应用几个方面进行了介绍。     

接枝改性碳酸钙及其在聚合物中的应用研究

介绍了近年来碳酸钙表面接枝改性的研究进展,讨论了自由基接枝聚合、辐照接枝聚合和力化学表面接枝聚合及偶联剂预处理与辐照并用接枝聚合改性方法。其中重点讨论了最新研究的偶联剂预处理与辐照并用接枝改性纳米碳酸钙的方法。用此方法制备的聚合物/纳米碳酸钙纳米复合材料在其他力学性能基本不变的情况下,大幅度提高了其缺口冲击强度和断裂伸长率。指出了碳酸钙表面接枝改性应向着提高接枝单体量和采用弹性体单体方面发展。     

表面光接枝聚合反应新进展

表面性能对高分子材料应用至关重要,但多数聚烯烃材料表面惰性,需对表面进行改性或功能化．紫外光引发表面光接枝聚合反应具有诸多优势,因而获得广泛应用．作者以本实验室近年的研究为基础,结合这一领域国际上的部分重要研究成果,概述了实施表面光接枝聚合反应的一些新方法：控制,活性表面光接枝聚合、自引发光接枝聚合、暗区表面光接枝聚合、表面光接枝-交联聚合以及表面小分子光化学反应等．     

原子转移自由基聚合接枝改性木质素

木质素是仅次于纤维素的第二大生物质资源, 是自然界中唯一的可再生芳香族化合物资源。长久以来, 木质素的难以充分利用是掣肘生物化工产业的一个重大问题。近年来, 原子转移自由基聚合接枝改性成为木质素高值化利用的一个重要方法, 可制备获得不同结构、性能各异的木质素接枝改性材料。本文从单体种类、催化剂、材料的结构与性能等方面, 介绍了原子转移自由基聚合接枝改性木质素的研究进展, 并对该领域的发展前景与挑战进行了探讨。     

等离子体引发HEMA的RAFT接枝聚合改性聚丙烯多孔膜

采用等离子体引发的可逆加成-断裂链转移(RAFT)接枝聚合法,以甲基丙烯酸羟乙酯(HEMA)为单体,对聚丙烯(PP)多孔膜表面作了亲水改性.研究了接枝聚合动力学,并以FT-IR、SEM、压汞、水通量等方法研究了改性膜的表面结构形态及孔结构.结果表明,等离子体引发的RAFT接枝聚合速率显著低于普通等离子体引发的接枝聚合速率.表面接枝率随着接枝聚合时间的延长呈线性增长趋势,同时改性膜的孔径和水通量随之减小.     

丙烯酰胺在炭黑表面接枝聚合研究

利用Ｃｅ＾４＋和羟甲基化炭黑组成的氧化还原引发体系，探讨了丙烯酰胺在炭黑表面的自由基水溶液接枝聚合机理。研究表明：单体浓度、硝酸浓度和铈盐用量直接影响丙烯酰胺在炭黑表面的接枝聚合，ＦＴＩ和ＴＥＭ分析证明：改性炭黑表面存在着聚丙烯酰胺。改性炭黑粒子的Ｚｅｔａ电位值与未改性炭黑粒子相同，但它与水组成的分散体具有极好的分散稳定性。     

表面引发接枝聚合法制备高接枝度的接枝微粒SiO2-g-PMAA

将偶联剂γ-氨丙基三甲氧基硅烷(AMPS)键合在硅胶微粒表面,得到改性微粒AMPS-SiO2;使改性微粒表面的氨基与溶液中的过硫酸铵构成氧化-还原引发体系,实现了甲基丙烯酸(MAA)在硅胶微粒的表面引发接枝聚合,制得了高接枝度(0.30 g/g)的接枝微粒SiO2-g-PMAA;研究了影响表面引发接枝聚合的主要因素。 结果表明,适宜的温度为40 ℃。 已接枝到硅胶表面的聚合物层对后续的接枝聚合产生阻隔作用。 适宜的引发剂用量为单体质量的1.1%,适宜的单体质量分数为5%左右。     

纤维素接枝共聚物

本文概述纤维素的改性产物－纤维素接枝共聚物的合成方法，特殊性能，广泛用途以及其发展趋向。其中着重介绍八十年代以来各国的研究成果。     

在聚合物微球HEMA/NVP表面接枝聚合甲基丙烯酸的研究

采用悬浮聚合法制备了甲基丙烯酸羟乙酯与N-乙烯基吡咯烷酮的交联共聚微球;接着用甲基丙烯酰氯对交联微球进行了表面化学改性,将可聚合双键引入微球表面,制得了改性微球;然后,用"接出"法实施了甲基丙烯酸(MAA)在改性微球表面的接枝聚合,得到了接枝微球.用红外光谱法对几种微球的化学结构进行了表征,使用扫描电镜观察了形貌;考察了对MAA接枝聚合的主要影响因素.结果表明,交联微球在表面改性后,可顺利地实现MAA在微球表面的接枝聚合;在接枝聚合过程中,微球表面所产生的接枝聚合物层会形成动力学位垒,反应12h后接枝度不再变化,且在接枝度-温度与接枝度.引发剂用量曲线上出现最高点;接枝聚合适宜的反应温度为70℃,引发剂用量为单体质量的0.3%.对碱性蛋白的吸附性能的观察表明,在氢键与静电相互作用的协同作用下,接枝微球对溶菌酶具有很强的吸附能力.     

聚氨酯微球的接枝改性及温敏特性

以N-异丙基丙烯酰胺(NIPAAm)为单体, 二苯甲酮(BP)为光敏剂, 过硫酸胺(APS)为自由基引发剂, 采用溶液中光接枝方法制备了具有温度敏感特性的聚氨酯微球(PUS). 傅里叶变换红外光谱(FTIR)和扫描电子显微镜(SEM)结果表明, 在聚氨酯微球表面形成了聚异丙基丙烯酰胺(PNIPAAm)接枝聚合物层. 在接枝过程中, 延长反应时间与增加引发剂浓度均有利于提高接枝率. 常温下, 接枝率随反应时间延长呈线性增长, 当反应时间超过40 min后, 接枝率基本保持稳定; 而引发剂浓度对接枝率的影响存在最佳优化值, 即其浓度为单体质量分数的3%. 采用差示扫描量热法(DSC)对接枝改性前后聚氨酯微球的温敏特性进行分析表征, 证实改性后的微球在35 ℃左右出现低临界互溶温度(LCST), 在此温度附近表现出对温度敏感特性. 接触角测试与溶胀测试结果表明, 在低临界互熔温度以下, 接枝改性的聚氨酯微球具有良好的亲水性.     

聚烯烃接枝改性设备的开发

介绍了近年来聚烯烃接枝工艺及其设备的开发情况。分别介绍了熔融接枝、溶液接枝、固相接枝、紫外光辐射接枝、等离子体接枝、超临界二氧化碳接枝的工艺及设备的开发情况。     

Anionic graft polymerization of methacrylonitrile on potassium starch alkoxide

The anionic graft polymerization of methacrylonitrile on potassium starch alkoxide in dimethyl sulfoxide was studied. Factors affecting the graft polymerization such as monomer and alkoxide concentrations as well as temperature were investigated. The yield of the graft polymers was found to increase with alkoxide concentration, and it was possible to incorporate all the starch into graft polymer. On increasing the monomer concentration the graft polymer yield increased to a flat maximum. At the higher monomer concentrations, the efficiency of monomer in giving graft polymer decreased due to increased homopolymer formation. The composition of the graft polymers varied with increasing monomer concentration, graft polymers having about 40–65% of grafted starch were obtained. With increasing temperature (10 to 60°C), the yield of graft polymer decreased, there was more homopolymerization, but the amount of starch incorporated in the graft remained constant. The structure of the graft polymers was deduced from hydrolysis of the starch backbone of the graft polymers by dilute mineral acid and the determination of the molecular weights of the grafted side chains, and from oxidation by periodic acid, which showed the extent of grafting at the secondary hydroxyl groups. These results have shown that by anionic graft polymerization it is possible to obtain graft polymers having more densely packed grafted side chains of relatively low molecular weights than those obtained previously by free-radical graft polymerization.     

Aggregate morphologies of amphiphilic graft copolymers in dilute solution studied by self-consistent field theory

Microstructures assembled by amphiphilic graft copolymers in a selective solvent (poor for the backbone chain and good for graft chains or poor for graft chains and good for the backbone chain) were investigated on the basis of a real-space algorithm of self-consistent field theory in two-dimensions. Circle-like micelles, line-like micelles, large compound micelles, and vesicles are obtained by tailoring the architectural parameters and interaction parameter between the graft blocks and solvents. The aggregate morphology stability regions of graft copolymers as functions of the position of first graft point and the number of branches are constructed. It is found that the architectural parameters play a remarkable role in the complex microstructure formation. The interaction between the graft blocks and solvents is also shown to exert an effect on the morphology stability regions. The distributions of the free end and inner blocks of the backbone are found to be different in various aggregate structures. For the circle-like micelles assembled by graft copolymers with a hydrophobic backbone and vesicles assembled by graft copolymers with a hydrophilic backbone, the free end and inner blocks segregate and localize in different parts of the aggregates depending on their length. However, with respect to the large compound micelles and vesicles assembled by graft copolymers with a hydrophobic backbone, the free end and inner blocks uniformly mix in the clusters.     

Preparation of bio-based polymers for materials applications

A new technology developed by us for the synthesis of well defined, tailored cellulose-synthetic polymer graft polymers and crosslinked cellulose graft polymers with control over the molecular weight of the synthetic polymer graft, a high degree of graft substitution, and knowledge of the backbone-graft linkage is reviewed. The potential of bio-based polymers using these new tailored cellulosic graft polymers for use in plastics, resins, and composite applications is discussed. The new graft polymers can function as compatibilizers/interfacial agents in the preparation of biopolymer-synthetic polymer composites and blends with the desirable properties of the constitutent polymers incorporated into the new material system.     

聚氨酯与接枝乙烯基酯树脂互穿网络研究: 自由基共聚 单体的影响

通过分子设计技术合成了两种侧链种类和长度可能控制的接枝乙烯基酯树脂(VER),并用它们与聚氨酯(PU)形成了同步互穿网络(SIN)。通过DSC,SEM,TEM,FTIR等考察了接枝VER的共聚单体对VERSIN的形态结构与力学性能的影响。研究结果表明,用甲基丙烯酸甲酯(MMA)为共聚单体的接枝VER网络中的MMA链段与PU网络中的硬段有较好的相容性,导致这类PU/接枝VERSIN中两个网络间的相容性和互穿程度好于由苯乙烯为共聚单体时合成4SIN。因此,在这两类共聚单体合成的SIN中,由MMA形成的接枝VER网络增强PU网络的效果更为显著。     

Synthesis and characterization of a poly(GMA)‐graft‐poly(Z‐L‐lysine) graft copolymer with a rod‐like structure

This study applied the macromonomers and glycidyl methacrylate (GMA) to synthesize a series of the graft copolymers, poly(GMA)‐graft‐poly(Z‐L ‐lysine), and investigated the conformation of the graft copolymer. The graft copolymers were synthesized with different GMA monomer ratios (28 to 89%) and different degrees of polymerization (DP) (8 to 15) of the poly(Z‐L ‐lysine) side chain to analyze secondary structure relationships. Atomic force microscopy (AFM), Fourier transform infrared spectroscopy (FTIR), and both wide angle and small angle X‐ray scattering spectroscopy (WAXS, SAXS) were used to investigate the relationship between the microstructure and conformation of the graft copolymers and the different monomer ratios and side chain DP. In AFM images, n8‐G89 (the graft copolymer containing 89% GMA units and the macromonomer DP is 8) showed tiny and uniform rod‐like structures, and n14‐G43 (the graft copolymer containing 43% GMA units and the macromonomer DP is 14) showed uniform rod‐like structures. FTIR spectra of the graft copolymers showed that the variations of α‐helix and β‐sheet secondary structures in the graft copolymers relate to the monomer ratios of the graft copolymers. However, the X‐ray scattering patterns indicated that the graft copolymer conformations were mainly dependent on the poly(Z‐L ‐lysine) side chain length, and these results were completely in accordance with the AFM images. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 4655–4669, 2009     

蛋白质接枝共聚研究进展

接枝共聚是一种有效的化学修饰方法,经过接枝改性后,高分子化合物的物理、机械和化学性质都能得到改善。文章从引发体系、接枝单体两个方面综述了酪蛋白和丝素蛋白的接枝共聚改性机理以及接枝产物的结构和性能。接枝反应中引发剂浓度和接枝单体浓度都有一个最佳值,接枝产物的热性能和力学性能都有所提高。     

Anionic graft polymerization of propylene sulfide on cellulose. I

The anionic graft polymerization of propylene sulfide on cellulose membrane was studied. Alkali cellulosates were used to initiate graft polymerization, and graft polymers of high polypropylene sulfide content were obtained in good yields. The graft polymerization was accompanied by a certain extent of homopolymerization. The effects of reaction solvent, monomer concentration, cellulosate degree of substitution, and type of the alkali metal cellulosate on the graft polymer composition, yield, and on the molecular weight of the grafted side chains were investigated.     

Synthesis and Characterization of CPE-g-GMA Graft Copolymers Obtained by Suspension Copolymerization

Graft of glycidyl methacrylate (GMA) onto solid-state chlorinated polyethylene (CPE) has been performed by suspension copolymerization in a complex dispersion medium which was a compound with H₂O, ethyl acetate (EA) and tert-butyl alcohol (TBA). Benzoyl peroxide (BPO) was used as the free radical initiator. The graft level (graft degree and graft efficiency) was calculated gravimetrically, and the graft copolymer was characterized by infrared (IR) spectroscopy, thermogravimetric analysis (TGA) and contact angle study. The effects of reaction conditions on graft level, including chemical parameters (the concentration of monomer, initiator, and interfacial agent) and processing parameters (reaction time and temperature), have been investigated in detail. The experimental results showed that GMA could be grafted onto the chain of CPE with comparative higher graft degree, which could reach 37% with graft efficiency above 80%.     

生物医用材料表面光引发活性接枝聚合研究新进展

表面接枝聚合改性已经成为提升生物医用材料性能的最重要方法之一.参比其他活性接枝聚合方法,光引发活性接枝聚合因其独特的优势已被越来越广泛地应用于生物医用材料表面改性.根据光引发剂的类型,目前应用最多的光引发活性接枝聚合的引发体系主要有3种:光引发-转移-终止剂介导的聚合引发体系、二苯甲酮及其衍生物引发体系、硫杂蒽酮类引发体系.本文首先简要介绍了上述3种光引发活性接枝聚合体系的发展历程、接枝机理以及特点.同时结合本课题组相关研究工作,重点论述了光引发接枝聚合技术在3个不同生物医用领域的主要应用:(1)抗菌表面,利用光活性接枝的特点构建层状功能高分子刷,实现表面抗菌功能的阶段性需求.(2)免疫检测表面,使用光活性接枝方法构建层状功能高分子刷,解决检测灵敏度低以及蛋白干扰问题.(3)生物活性分子表面固定,利用可见光活性接枝聚合体系,实现酶在表面的固定化使用以及细胞表面修饰以提高细胞稳定性.最后展望了生物医用材料表面光引发活性接枝聚合研究的发展趋势.