溶剂热法制备无皂阳离子P(MMA-St)纳米胶乳粒子

运用溶剂热法,以丙酮-水为分散介质,偶氮二异丁基脒盐酸盐(AIBA)引发苯乙烯(St)和甲基丙烯酸甲酯(MMA)共聚,制得粒径约为40nm的无皂阳离子聚(苯乙烯-甲基丙烯酸甲酯)纳米胶乳粒子[P(MMA-St)],其结构经TEM,FT-IR,TG和DTA表征。讨论了不同引发剂[AIBA与KPS(过硫酸钾)],AIBA浓度{[AIBA]},单体总浓度{[M0]}对聚合速率的影响。结果表明:相同条件下AIBA引发聚合速率比KPS的快;随着[AIBA]的增大,聚合速率先增大后减小,而粒径先减小后增大;随着[M0]的增大,聚合速率增大;得到[M0]和[AIBA]影响聚合速率的动力学方程为:RP=kP·[M0]0.59[AIBA]0.77;[P(MMA-St)]的热稳定性显著提高。     

甲基丙烯酸丁酯微波无皂乳液聚合

以过硫酸钾作为引发剂进行了甲基丙烯酸丁酯的微波无皂化乳液聚合，讨论了单体浓度和引发剂用量对单体转化率，粒子粒径及其分布的影响，并与常规乳液聚合进行了比较。结果表明，通过微波无皂乳液聚合，乳胶粒子的粒径分布没有明显变化，但是聚合速率大为增加。     

无皂乳液聚合制备高浓度单分散聚(苯乙烯-甲基丙烯酸甲酯)胶体粒子

通过添加聚乙烯醇和丙酮，找到了一种无皂乳液聚合制备高浓度单分散苯乙烯－甲基丙烯酸甲酯共聚胶体粒子的新途径，粒子半径达纳米数量级，体系的固含量大于50％，研究了聚乙烯醇和丙酮对反应过程，胶乳粒子大小的影响，结果表明聚乙烯醇和丙酮对高浓度无皂纳米胶乳粒子的形成与稳定起重要作用。     

苯乙烯—丙烯酸丁酯无皂乳液聚合动力学及TEM分析

讨论了温度对十一烯酸钠存在下的苯乙烯、丙烯酸丁酯无皂乳液聚合体系pH值的影响,描述了聚合反应动力学曲线,求出不同温度下的聚合反应速率常数.利用TEM对几种乳化剂体系的乳液聚合进行比较后发现,在无皂乳液聚合体系中,乳胶粒的均匀性和粘连、形变等都得到了控制.由于体系中不存在游离乳化剂,乳液的稳定性得到提高.     

溶剂热法制备无皂P(St-MMA)纳米胶乳粒子

采用溶剂热法,在密闭容器内,以异丙醇-水为分散介质,过硫酸钾为引发剂引发苯乙烯(St)和甲基丙烯酸甲酯(MMA)共聚,制得了粒径约为60 nm的无皂聚(苯乙烯-甲基丙烯酸甲酯)纳米胶乳粒子[P(St-MMA)]。探讨了异丙醇用量和反应温度对P(St-MMA)粒径的影响,并对异丙醇-水和丙酮-水体系中的聚合速率进行了比较。实验结果表明:随着异丙醇用量的增加,P(St-MMA)粒径逐渐减小;随着反应温度的升高,P(St-MMA)粒径先减小后增大;异丙醇-水体系的聚合速率比丙酮-水体系的聚合速率快。     

小粒径无皂阳离子PMMA胶乳粒子的制备与表征

采用溶剂热法,以AIBA为引发剂制得小粒径无皂阳离子PMMA胶乳纳米粒子。讨论了单体用量、引发剂用量和反应温度对胶乳粒径及乳液的粒径分布的影响;用^1H—NMR、TEM、FTIR、GPC、DTA等对聚合物进行了表征。结果表明：采用溶剂热法制得的无皂阳离子胶乳粒子粒径约为35nm,分散均匀;随着温度的升高,粒径逐渐减小;间同、无规、全同立构的相对含量分别为：55．3％、37．8％、6．9％;乳液的抗电解质稳定性好。     

可乳化共聚单体AGES用于无皂乳液聚合的研究

合成了一种新型可共聚单体烯烃基甘油醚磺酸盐(AGES),不仅含有具有反应活性的烯键,而且带有起乳化作用的磺酸离子基团及羟基,可用于MMA/BA无皂乳液聚合体系。对乳胶粒大小、乳液的流体力学行为及共聚物的动态力学性能进行了研究。实验结果表明:通过AGES的引入,可获得直径为0.5μm左右的分布均匀的乳胶粒,乳液含固量高(60%),粘度低,是稳定的塑性非牛顿流体乳液,共聚物为典型的无规共聚。     

MMA-EA-AA无皂乳液聚合中粒径及粒径分布的控制

系统研究了MMA EA AA三元无皂乳液聚合体系中各种因素对乳胶粒大小及分布的影响 ,制得了单分散、粒径在 30 0～ 6 0 0nm可控聚合物乳胶粒 .结果表明 ,在过硫酸铵用量一定的条件下 ,聚合初期加入大量引发剂可同时提高单体转化率和乳胶粒的单分散性 ;随着引发剂和AA用量的增加以及聚合温度的升高 ,胶粒粒径逐渐减小 ,转化率逐渐升高 ;随着NH4 HCO3用量的增加 ,粒径逐渐增大 ,当NH4 HCO3用量达到 0 5g以后 ,转化率逐渐降低 ;搅拌速率为 30 0r min左右时 ,单体转化率最高 ,所得乳胶粒粒径最均一 .     

溶剂热法制备小粒径无皂MMA/St共聚纳米胶乳粒子

溶剂热法制备小粒径无皂MMA/St共聚纳米胶乳粒子;溶剂热法;无皂乳液聚合;纳米粒子;聚(苯乙烯甲基丙烯酸甲酯)     

活性/可控自由基无皂乳液聚合

活性自由基聚合与无皂乳液聚合都是近年来研究的热点课题,而活性自由基无皂乳液聚合兼具两种聚合方法的优点,有着重要的理论研究意义和广泛的工业应用前景.目前,实现活性自由基无皂乳液聚合主要通过两种途径:一是先利用活性自由基聚合方法制备含有活性引发基团的水溶性或两亲性聚合物,将这类聚合物溶解或分散在水中,无需加入其他乳化剂的条...     

Catalytic Emulsion Copolymerization of Styrene and Ethylene by Neutral Nickel (II) Complex

Catalytic copolymerization of styrene and ethylene by neutral nickel(II) complex has been performed in emulsion. The influences of the ratio of styrene to ethylene, polymerization temperature and time, ethylene pressure and polymerization procedure on the activity of catalyst and the composition of polymer were investigated in detail. The morphology of the polymer latex was observed by TEM, and the polymer was also characterized by NMR and GPC. The results showed that the latex particle was spherical, and the latex up to 10% solid content and the high-molecular-weight poly(styrene-b-ethylene) was obtained. The content of the ethylene in the copolymer was evidently enhanced by the addition of the styrene decreasing, addition of the toluene and introduction of the procedure without prepolymerization. The styrene incorporated in the copolymer were in the range of 72 mol% to 100 mol%.     

苯乙烯-甲基丙烯酸羟乙酯无皂乳液聚合过程

苯乙烯-甲基丙烯酸羟乙酯无皂乳液聚合过程;成核机理     

紫外光引发甲基丙烯酸甲酯乳液聚合

以60W高压汞灯为光源,以偶氮二异丁氰(AIBN)为主要光引发剂,以甲基丙烯酸甲酯(MMA)为单体进行乳液聚合,考察了光照时间、单体浓度、光引发剂浓度等因素对单体转化率的影响;采用透射电镜观察了乳胶粒的形态,并测定了其尺寸.结果表明,转化率随光照时间和单体浓度的增加而上升;当光引发剂质量分数为3%时单体转化率最高.     

微波辐照合成无皂高分子纳米粒子

无皂乳液聚合;微波辐照合成无皂高分子纳米粒子     

Particle Nucleation and Growth in the Emulsion Polymerization of Styrene: Effect of Monomer/Water Ratio and Electrolyte Concentration

This work is an extension of previous research results reported by our team (Colloid and Polymer Science 2013, 291: 2385-2398), where large scale and high solid content latexes of poly(n-butyl acrylate) were obtained with the particle coagulation method induced by the electrolyte. However, how to prepare controlled particle size distribution polymer latex has not been studied. Thus, in this study, the effect of the monomer/water ratios and electrolyte concentrations on particle formation and growth methods were studied by following the tracks of the evolutions of particle size, number and distribution as a function of reaction time or conversion. Experimental results showed that the length of time that particle nucleation occurred increased with increasing monomer charged for the systems without electrolyte. A point worthy of attention here is that homogeneous nucleation may occur at high monomer concentrations (30/70, 40/60). However, electrolyte added could be made the nucleation mechanism shift from micellar/homogeneous nucleation to micelle /coagulation nucleation. As a result, the final particle size distribution can be controlled by adding an appropriate electrolyte to regulate the nucleation mechanism. Spherical and uniformly sized particles could be obtained when electrolyte concentration is between 0.2 wt% and 0.4 wt% for water at the high monomer/water ratio (40/60). The effects of electrolyte concentration on nucleation mechanism mainly were expressed by decreasing the solubility of the monomer and interparticle potential, and then preventing homogeneous nucleation and enhancing particle coagulation.     

Polymerization of styrene with ionic comonomer,nonionic comonomer,or both

Nanosized polystyrene latexes with high polymer contents were obtained from an emulsifier-free process by the polymerization of styrene with ionic comonomer, nonionic comonomer, or both. After seeding particles were generated in an initial emulsion system consisting of styrene, water, an ionic comonomer [sodium styrenesulfonate (NaSS)] or nonionic comonomer [2-hydroxyethyl methacrylate (HEMA)], and potassium persulfate, most of the styrene monomer or a mixture of styrene and HEMA was added dropwise to the polymerizing emulsion over 6 h. Stable latexes with high polystyrene contents (≤25%) were obtained. The latex particle weight-average diameters were largely reduced (41 nm) by the continuous addition of monomer(s) compared with those (117 nm) obtained by the one-pot polymerization method. Latex particles varied from about 30 to 250 nm in diameters, whereas their molar masses were within 10⁴ to 10⁵ g/mol. The effect of the comonomer concentration on the number of polystyrene particles per milliliter of latex and the weight-average molar masses of the copolymers during the polymerization are discussed. The surface compositions of the latex particles were analyzed by X-ray photoelectron spectroscopy, which indicated that the surface of the latex particles was significantly enriched in NaSS, HEMA, or both. © 2001 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 39: 1634–1645, 2001     

纯化对三元无皂共聚胶粒性质的影响

以离子交换和高速离心两方法纯化含不同功能基的三元无皂共聚胶乳,用ＴＥＭ和电导滴定检测比较了以上两方法的纯化效果,同时考察了这两种纯化方法对三元无皂胶粒形态,大小及表面功能其量的影响。研究发现,只有通过多次离心－倾析－再分散过程才能将胶乳所有杂质除去。离子交换和离心纯化不影响胶粒形态大小,而离心纯化使粒表面功能其量发生显著变化。