种子乳液聚合法制备多孔乳胶粒

用批量乳液聚合法制备了苯乙烯（Ｓｔ）———甲基丙烯酸甲酯（ＭＭＡ）二元共聚种子乳液Ｓ１以及Ｓｔ ＭＭＡ 丙烯酸（ＡＡ）三元共聚种子乳液Ｓ２,通过连续法无皂种子乳液聚合合成了一系列不同ＡＡ或ＭＡＡ（甲基丙烯酸）含量的Ｓｔ、ＭＭＡ三元共聚乳液．将所得复合胶乳进行碱／酸分步处理,得到具有多孔结构的乳胶粒．用透射电镜对胶粒形态进行了表征,考察了不饱和酸种类和用量、碱处理初始ｐＨ值及溶胀剂对胶粒成孔的影响．     

致孔剂对HP（MA—VAc—MMA）载体孔结构的影响

以二乙烯苯和双丙烯酸多缩乙二醇酯为交联剂、聚醋酸乙烯酯（ＰＶＡｃ）或它与醋酸丁酯（ＢＡＣ）的混合物为致孔剂、ＢＰＯ为引发剂，用悬浮聚合随后水解的方法制得了部分水解聚（丙烯酸甲酯－醋酸乙烯酯－甲基丙烯酸甲酯）［ＨＰ（ＭＡ－ＶＡｃ－ＭＭＡ）］多孔载体，研究了ＰＶＡｃ及（ＰＶＡｃ＋ＢＡＣ）用量、分子量及混合比对ＨＰ（ＭＡ－ＶＡｃ－ＭＭＡ）孔结构的影响。结果表明，当ＰＶＡｃ的Ｍ＞２．５×１０５，ＰＶＡｃ／ＢＡＣ为２．３，用量为１０～２０％时，可制得孔隙率较高，孔径分布较窄，孔表面积较大的多孔载体。这种载体适用于微生物固定化。     

种子乳液聚合物胶粒形态及胶膜结构研究

以醋酸乙烯酯和丙烯酸丁酯为单体，用乳液聚合方法，以极性小的ＰＢＡ为种子进行了ＶＡ种子聚合，用透射电镜染色及皂液滴定方法对胶粒形态进行了表征，结果，上述聚合反应能形成ＰＢＡ／ＰＶＡ核壳结构的胶粒，而以ＰＶＡ为种子对ＰＢＡ进行聚合，则不能形成ＰＶＡ／ＰＢＡ核壳结构的胶粒，其胶粒亦具有类似ＰＢＡ／ＰＶＡ核壳结构或半包囊结构，将胶乳制成胶膜，其耐水性能测试表明成膜后胶粒基本保持了其分散阶段的形态。     

聚醋酸乙烯酯与铜（Ⅱ）离子的配位反应及其催化作用

以ＥＳＲ、ＵＶ和ＩＲ表征Ｃｕ（２＋）离子与ＰＶＡＣ的配位反应。根据ＣＵＣｌ２·２Ｈ２Ｏ乙醇溶液与ＰＶＡｃ－ＣｕＣｌ２·２Ｈ２Ｏ乙醇溶液的电导率差值随Ｃｕ（２＋）离子摩尔浓度变化的明显转析点得知，１个Ｃｕ（２＋）离子大约能与ＰＶＡｃ４个链节单元配位。证实ＭＭＡ在Ｃｕ（Ⅱ）－ＰＶＡｃ配合物／Ｎａ２ＳＯ３体系的聚合体是无规ＰＭＭＡ，得率为７０％。讨论了ＭＭＡ在Ｃｕ（Ⅱ）－ＰＶＡｃ配合物／Ｎａ２ＳＯ３体系络合催化引发下的游离基反应历程。     

氯化聚乙烯对甲基丙烯酸甲酯／苯乙烯共聚动力学的影响

将甲基丙烯酸甲酯（ＭＭＡ）／苯乙烯（Ｓ）在氯化聚乙烯（ＣＰＥ）存在下进行悬浮溶胀接枝共聚，考察了ＣＰＥ对ＭＭＡ／Ｓ共聚动力学行为的影响．ＣＰＥ提高了聚合体系的粘度，使自动加速提前，扩散因素增加，对共聚有阻滞作用．ＣＰＥ是链转移剂，使ＭＭＡ／Ｓ共聚物分子量降低．ＣＰＥ对ＭＭＡ的吸附渗透优于对Ｓ的吸附，造成接技部分与非接技部分组成的差异．ＣＰＥ含量、溶胀时间、转化率、硫酸用量对共聚组成均有影响。     

聚烯烃共混物分散相尺寸梯度分布形态形成速度影响因素的研究

研究了聚烯烃高分子共混物的初始相形态及相间界面张力的改变对退火热处理条件下共混物分散相尺寸分布梯度形态形成速度的影响．通过控制共混物共混过程中Ｂｒａｂｅｎｄｅｒ转子的转速来控制共混物所受的剪切力大小，可达到控制共混物初始相形态的目的．通过ＳＥＭ电镜观察相形态，并利用计算机图象分析仪得到分散粒子的粒径及其分布数据．研究结果表明，转子转速越大，即共混物所受的剪切力越大，分散相初始粒径越小，且分散也越均匀．初始粒径较小的样品退火后形成梯度的速度相对较快．选用体系聚丙烯（ＰＰ）／乙烯 醋酸乙烯酯共聚物（ＥＶＡｃ）、聚乙烯（ＰＥ）／ＥＶＡｃ及改变ＥＶＡｃ中的醋酸乙烯酯（ＶＡｃ）含量与ＰＥ共混对比研究了不同相界面张力对梯度化速度的影响．结果表明，上述各体系退火热处理后均可形成梯度相形态，且相间界面张力越大．高分子共混物中梯度相形态形成速度也越快     

温度及pH敏感聚(丙烯酸)/聚(N-异丙基丙烯酰胺)互穿聚合物网络水凝胶的合成及性能研究

合成聚（丙烯酸）／聚（Ｎ 异丙基丙烯酰胺）互穿聚合物网络（ＰＡＡｃ／ＰＮＩＰＡＩＰＮ）水凝胶，具有温度及ｐＨ双重敏感特性．这种水凝胶在弱碱性条件下的溶胀率远大于酸性条件下的溶胀率．在酸性条件下，随着温度上升，凝胶的溶胀率也随之逐渐上升；而在弱碱性条件下，温度低于聚（Ｎ 异丙基丙烯酰胺）（ＰＮＩＰＡ）的较低临界溶解温度（ＬＣＳＴ）时，溶胀率也随着温度的上升而上升，当温度达到ＬＣＳＴ时，凝胶的溶胀率突然急剧下降，并随着温度的逐渐上升而下降．     

Mo（Ⅵ）－PAN与Mo（Ⅵ）－PAR体系的极谱性质对比研究

本文比较了Ｍｏ（Ⅵ）－１－（２－吡啶基偶氮）－２－萘酚（ＰＡＮ）与Ｍｏ（Ⅵ）－４（２－吡啶基偶氮）间苯二酚（ＰＡＲ）的极谱性质，讨论它们在作为吸附波试剂时的优缺点，以求得在选择络合剂时的感性和理性认识．本文还报道了Ｍｏ（Ⅵ）－ＰＡＮ－ＫＢｒＯ３吸附催化波体系，最佳实验条件，０．１ｍｏｌ／ＬＨＡｃ－－ＮａＡｃ，ｐＨ＝４．６，０．０１ｍｏｌ／ＬＫＢｒＯ３，２．５×１０－５ｍｏｌ／ＬＰＡＮ．峰电位为－０．７１Ｖ（ｖｓ．ＳＣＥ），检出限１×１０－９ｍｏｌ／Ｌ，线性范围０～６×１０－７ｍｏｌ／Ｌ     

壳聚糖/聚乙烯醇/三聚磷酸钠三元复合微球的制备及表征

由壳聚糖（ＣＳ）、聚乙烯醇（ＰＶＡ）和三聚磷酸钠（ＴＰＰ）制备了壳聚糖／聚乙烯醇／三聚磷酸钠三元复 合微球,探讨了体系中壳聚糖含量对复合微球的影响,以及离子种类及浓度和ｐＨ值对复合微球溶胀度的影 响。采用ＸＲＤ、ＦＴＩＲ和ＳＥＭ等测试技术对微球的组分、结构和形貌进行了表征。结果表明,ＣＳ和ＰＶＡ具有良好的相容性,随着ＣＳ含量的增加,ＰＶＡ的结晶性逐渐降低,复合微球的粒径约为４００～９５０ μｍ,表面较为粗糙;随着ＣＳ添加量的增加,凝胶平衡溶胀度先增大再减小,ＣＳ／ＰＶＡ／ＴＰＰ复合微球在ｐＨ值为３～8的溶胀度最大,且在同一种溶液中,随着离子浓度的增加,其溶胀度明显降低;复合微球具有溶胀 收缩可逆性,显示ＣＳ／ＰＶＡ／ＴＰＰ复合微球是ｐＨ／离子敏感型凝胶,可为药物缓释系统提供实验和理论依据。     

尼龙6/多单体接枝聚丙烯共混物的形态结构及力学性能的研究

用多组分熔融接枝的方法将甲基丙烯酸缩水甘油酯（ Ｇ Ｍ Ａ） 和苯乙烯（ Ｓｔ） 共同接枝于聚丙烯（ Ｐ Ｐ） 上,制得多单体接枝聚丙烯 Ｐ Ｐ ｇ （ Ｇ Ｍ Ａ ｃｏ Ｓｔ） ．该接枝物具有高的 Ｇ Ｍ Ａ 接枝率．本研究利用 Ｆ Ｔ Ｉ Ｒ、 Ｓ Ｅ Ｍ、 Ｔ Ｅ Ｍ、 Ｄ Ｓ Ｃ 和力学性能测试等分析方法,研究了多组分熔融接枝聚丙烯（ Ｐ Ｐ ｇ （ Ｇ Ｍ Ａ ｃｏ Ｓｔ）） 对尼龙６／ Ｐ Ｐ 共混物的形态结构, Ｔｇ 和力学性能的影响．结果表明, Ｐ Ｐ ｇ （ Ｇ Ｍ Ａ ｃｏ Ｓｔ） 中的环氧基团与尼龙６（ Ｐ Ａ６） 末端的胺基发生化学反应,原位形成的 Ｐ Ｐ Ｐ Ａ６ 共聚物能有效的改善 Ｐ Ａ６ 与 Ｐ Ｐ 的相容性,可以使 Ｐ Ｐ 均匀的分散在 Ｐ Ａ６ 基体中,相区尺寸明显减小,提高了拉伸强度．由于两相的相容性较好,从而共混物的 Ｔｇ 有明显的变化．此外,通过透射电镜观察,发现 Ｐ Ａ６／ Ｐ Ｐ ｇ （ Ｇ Ｍ Ａ ｃｏ Ｓｔ）（７０／３０） 合金中存在着特殊的微相分离结构．     

The formation mechanism of poly(vinyl acetate)/poly(butyl acrylate) core/shell latex in two-stage seeded semi-continuous starved emulsion polymerization process

In this paper, the morphological evolution of latex particles on poly(vinyl acetate) (PVAc)/poly(butyl acrylate) (PBA) in two-stage seeded semi-continuous starved emulsion polymerization is studied, and the thermodynamic analysis and a mathematic model are derived to describe the interfacial free energy changes corresponding to various possible thermodynamically unstable morphologies during the polymerization process. The comparisons between the morphological evolution and the related thermodynamic analysis show that the morphological evolution of latex particles is oriented to the thermodynamic preferred morphology which is an inverted core/shell structure with PBA as core and PVAc as shell. Based on the comparisons, the possible morphological developmental pathway of PVAc/PBA core/shell latex is described. The possible morphological developmental pathway suggests that the observed multi-particle morphology in the polymerization process is due to restricted chain mobility related to high internal viscosity. The formation mechanism of PVAc/PBA core/shell latex, based on the experiments as well as the thermodynamic and dynamic analyses, is proposed, which signifies that PBA is first formed outside the PVAc seed and then migrate to the inside of the PVAc seed.     

Effect of Monomer Feeding Mode on thePreparation of Hollow Latexes with High MAA Content in the Core Latex Preparation简

In order to prepare hollow latex particles with optimum morphology based on osmotic swelling principle, three- layer core/shell latex particles with 40 wt% MAA in the core were first prepared via multistep seeded emulsion copolymerization, in which monomers were added by a semi-continuous process with monomer addition under two different forms： pure monomers＇ mixture （monomer addition）, and pre-emulsified monomers （pre-emulsion addition）. Then, the hollow latex particles with different morphologies were obtained after alkali post-treatment. Influences of the monomer feeding mode on the emulsion polymerization and the particle morphology were investigated. Results showed that the pre- emulsion addition could significantly improve the polymerization stability in each step, and greatly enhance the uniformity of shell encapsulation. The sizes of the core and core/shell latex particles obtained by the pre-emulsion addition were smaller and more uniform than those synthesized by the monomer addition, and the hollow latex particles with intact morphology were generated by alkali post-treating of the core/shell latexes prepared from the pre-emulsion addition. As the core size increased, the morphology of the post-treated particles underwent evolution from hollow to collapse. Moreover, the mechanism of the particle morphological evolution was proposed.     

种子乳液聚合中复合乳胶粒结构形态的热力学分析

为了得到一种能够预测和控制乳胶粒结构形成的定量方法，本研究选用含有两 种聚合物乳胶粒(P_a和P_b)和水的体系作为模型体系来模拟种子乳液聚合体系，在 不考虑动力学因素的条件下，对乳胶粒可能出现的三种极限形态进行了热力学分析 。结果表明，最终乳胶粒稳定的结构形态不仅取决于体系中的P_a，P_b和水三者之 间的界面张力γ_(aw)，γ_(bw)和γ_(ab)，而且还取决于两聚合物的体积分数 V_a和V_b。形成P_a/P_b型正核壳结构乳胶粒的热力学必要条件是(γ_(aw)-γ_ (bw))/γ_(ab) > V_a~(2/3)-V_b~(2/3)和(γ_(aw)-γ_(ab))/γ_(bw) > (1- V_b~(2/3))/V_a~(2/3)；形成P_a/P_b型反核壳结构乳胶粒的热力学必要条件是(γ _(aw)-γ_(bw))/γ_(ab) < V_a~(2/3)-V_b~(2/3)和(γ_(bw)-γ_(ab))/γ_(aw) > (1-V_a~(2/3))/V_b~(2/3)。对以聚丙烯酸酯为种子有机硅氧烷的乳液聚合体系 的初步研究结果表明，所得乳胶粒的结构形态与利用上述热力学关系式预测的结果 基本一致。     

VAc/BA核壳乳液聚合乳胶粒形态演化

由两种单体分阶段种子乳液聚合制得的核壳型乳胶粒 ,可能存在着多种多样的形态 .由于不同的形态在使用中具有不同的性能 ,因此 ,核壳型乳胶粒的结构形态的研究一直受到人们的十分重视 .近年来 ,Ｓｕｎｄｂｅｒｇ[1] 等指出 ,正向、反向、两半球、两种孤立粒子等四种形态是热力学平衡形态 ,其他形态则是未达平衡的过渡形态 .并且提出用界面自由能最小的方法判别其中哪一种是最终平衡形态 .显然 ,自不平衡形态到平衡形态需要链迁移 ,Ｃｈｅｎ[2 ] 、Ｊｏｎｓｓｅｎ[3 ] 、Ｇｏｎｚａｌｅｚ[4] 等指出 ,链迁移的阻力是粘性力 .对于聚醋酸乙烯酯…     

Effect of the Shell Crosslinking Level andCore/Shell Ratio on the Morphology of LatexParticles in the Preparation of Hollow Latexes简

Three-layer core/shell latex particles with various shell crosslinking level and shell thickness were prepared by multistep emulsion polymerization, and the hollow latex particles with different morphologies were then obtained after alkali post-treatment. Influences of divinyl benzene(DVB) content and the core/shell mass ratio on emulsion polymerization and particle morphology were investigated. Results showed that with the increase of DVB content, the percentage of total amount of ―COOH on the particle surface and free in aqueous phase(PSFa) decreased, and the morphology of the post-treated particles underwent evolution from cracked, intact hollow to deficient swelling structure. Decreasing the core/shell mass ratio could not only make more carboxyl groups encapsulated by the shell, but also increase the shell resistance to the swelling of the core. The uniform hollow latex particles with intact morphology were obtained when the DVB content was 3.54 wt% and the core/shell mass ratio was 1/6.     

Highly magnetic latexes from submicrometer oil in water ferrofluid emulsions

The synthesis of functionalized submicrometer magnetic latex particles is described as obtained from a preformed magnetic emulsion composed of organic ferrofluid droplets dispersed in water. Composite (polystyrene/γ‐Fe₂O₃) particles were prepared according to a two‐step procedure including the swelling of ferrofluid droplets with styrene and a crosslinking agent (divinyl benzene) followed by seeded emulsion polymerization with either an oil‐soluble [2,2′‐azobis(2‐isobutyronitrile)] or water‐soluble (potassium persulfate) initiator. Depending on the polymerization conditions, various particle morphologies were obtained, ranging from asymmetric structures, for which the polymer phase was separated from the inorganic magnetic phase, to regular core–shell morphologies showing a homogeneous encapsulation of the magnetic pigment by a crosslinked polymeric shell. The magnetic latexes were extensively characterized to determine their colloidal and magnetic properties. The desired core–shell structure was efficiently achieved with a given styrene/divinyl benzene ratio, potassium persulfate as the initiator, and an amphiphilic functional copolymer as the ferrofluid droplet stabilizer. Under these conditions, ferrofluid droplets were successfully turned into superparamagnetic polystyrene latex particles, about 200 nm in size, containing a large amount of iron oxide (60 wt %) and bearing carboxylic surface charges. © 2006 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 44: 2642–2656, 2006     

Preparation of sulphonate-containing core/shell latex particles via seeded emulsion copolymerization

<正>In this study,P(St-MAA) seed latex particles were first prepared via soap-free emulsion polymerization of styrene(St) and methacrylic acid(MAA),then the seed particles were allowed to swell with St at room temperature,and the P(St-MAA)/P(StNaSS) core/shell latex particles were then synthesized via seeded emulsion copolymerization of St and sodium styrene sulphonate (NaSS) using AIBN as initiator in the presence of N,N'-methylenebisacrylamide(BAA,water-soluble crosslinker).Results showed that the polymerization could be carried out smoothly when the ratio of BAA to total monomers was less than 3 mol%,the narrow dispersed P(St-MAA) seed particles with the diameter of 150 nm and the P(St-MAA)/P(St-NaSS) core/shell latexes with the particle size of about 200 nm were synthesized.When the 25/75 mole ratio of NaSS/(St + MAA) and 2 mol%of BAA were used in the seeded emulsion polymerization,the resulted P(St-MAA)/P(St-NaSS) latex product showed a low weight loss after water extraction,and the NaSS unit content in the whole particle and in the shell reached 11.7 mol%and 34.6 mol%,respectively.     

Fabrication and morphology control of hollow polymer particles by altering core particle size

Particles with various morphologies were fabricated by changing the size of carboxyl-containing core particles and performing seeded emulsion polymerization as well as alkali posttreatment. The distribution of carboxyl groups, size, and morphology of the resultant particles were characterized with conductometric titration, dynamic light scattering (DLS), transmission electron microscopy (TEM), and scanning electron microscopy (SEM). Results indicated that the size of carboxyl-containing core latex particles could be varied from 95 to 240 nm by adjusting the concentration of sodium dodecyl sulfate (SDS). The percentage of carboxyl groups buried inside particles increased clearly along with the encapsulation of core by interlayer and shell polymers, and seeded emulsion copolymerization performed smoothly except the system using core particles with size less than 99 nm. After alkali posttreatment, the morphologies of corresponding particles showed porous, hollow, and bowl-like structure, respectively. Moreover, the relationship between core particle size and alkali-treated particle morphology was elucidated briefly.     

聚硅氧烷/丙烯酸酯核/壳复合胶乳的粒径分布与成核机理

通过种子乳液法合成出具有高有机硅含量核 壳结构的聚硅氧烷 丙烯酸酯复合粒子 .研究了聚合方法、乳化剂浓度、引发剂浓度、单体滴加速度等工艺条件对复合乳液粒径尺寸、分布与形态的影响 ,并对复合乳液的成核机理进行了探讨 .研究表明 ,乳化剂浓度对乳液粒子的粒径分布和形态、结构有显著影响 ,引发剂浓度增加将使粒子粒径减小 ;相对一次投料法 ,种子乳液法生成的粒子分布窄 ,具有明显核壳结构 ,通过壳层单体滴加速度可以控制粒子的粒径尺寸和分布 ;而壳层丙烯酸酯聚合物主要是在聚硅氧烷种子表面的“过渡层”聚合、富集而成 .     

Tailoring of carboxyl‐decorated magnetic latex particles using seeded emulsion polymerization

In this research, submicron and carboxyl‐functionalized magnetic latex particles were elaborated by using seeded emulsion polymerization technique in presence of oil‐in‐water (o/w) magnetic emulsion as seed. The polymerization conditions were optimized in order to get well‐defined latex particles with magnetic core and polymer shell bearing carboxylic (–COOH) functionality. Starting from (o/w) magnetic emulsion as seed, synthesis process was performed by copolymerization of styrene (St) monomer with the cross‐linker divinylbenzene (DVB) in presence of 4,4′‐azobis(4‐cyanopentanoic acid) (ACPA) as a carboxyl‐bearing initiator. The prepared magnetic latex particles were first characterized in terms of particle size, chemical composition, morphology, magnetic properties, magnetic content, and colloidal stability using various techniques, e.g. particle size analyzer using dynamic light scattering (DLS) technique, Fourier transform infrared, transmission electron microscopy, vibrating sample magnetometer, thermogravimetric analysis, and zeta potential measurements as a function of pH of the dispersion media, respectively. The prepared magnetic latex particles were then used as second seed for further functionalization with methacrylic acid (MAA) in order to enhance carboxylic groups on the magnetic particle's surface. The results showed that final magnetic latex particles possessed spherical morphology with core‐shell structure and enriched carboxylic acid functionality. More importantly, they exhibited superparamagnetism with high magnetic content (58.42 wt%) and high colloidal stability, which considered as the main requirements for their application in the biomedical diagnostic domains. Copyright © 2017 John Wiley & Sons, Ltd.