基于Pickering乳液的磁性高强水凝胶的制备及性能表征

合成了一种磁性Fe3O4纳米颗粒稳定的水包油(O/W)Pickering乳液并以其作为交联剂,在适宜条件下引发单体丙烯酰胺聚合来制备了一种新型的磁性高强复合水凝胶.采用X射线衍射(XRD)及场发射扫描电子显微镜(SEM)分别对磁性Fe3O4纳米颗粒和复合水凝胶的结构进行了表征,结果表明Pickering乳胶粒子较均匀地分布在复合凝胶网络中.溶胀性能测试及溶胀动力学分析表明复合水凝胶具有良好的溶胀性能,能够吸收自身干重100倍左右的水,其溶胀过程不遵循Fickian扩散模型;拉伸测试表明该水凝胶具有优异的力学性能,其拉伸强度能够达到150 kPa左右,断裂伸长率能够达到300%左右,并且当其承受的应力释放后能快速地恢复到初始形态.磁性能测试的结果显示该水凝胶具有良好的磁性.     

聚乙烯醇硫酸钾水凝胶电机械化学行为研究

通过将交联聚乙烯醇硫酸酯化的方法制备了一种新型电刺激响应性聚乙烯醇硫酸钾(PVSK)智能水凝胶,并探讨了溶液离子强度和pH对PVSK水凝胶的溶胀吸水率、机械性能以及电机械化学行为的影响.结果表明,制备的PVSK水凝胶的平衡溶胀比随NaCl溶液离子强度的增大而减小,在pH2.39～10.83范围内基本不受溶液pH的影响;经不同离子强度和pH的NaCl溶液充分溶胀的PVSK水凝胶具有良好的机械性能,在非接触的直流电场作用下,该水凝胶向电场负极弯曲,凝胶的弯曲速度和弯曲偏转量随外加电场强度的增加而增大,随NaCl溶液离子强度的增大出现临界最大值,但不随溶液pH(2.08～10.53)的改变而改变;在循环电场作用下,PVSK水凝胶的电机械化学行为具有良好的可逆性.     

P(AA-DAC)两性聚电解质水凝胶的合成及性质

以丙烯酸(AA)和丙烯酰氧乙基三甲基氯化铵(DAC)为单体, 采用水溶液聚合法制备了P(AA-DAC)聚电解质水凝胶. 采用红外光谱和核磁共振等方法对其结构进行了表征. 研究了不同组成比的聚电解质水凝胶在去离子水、不同pH值溶液以及不同离子强度盐溶液中的溶胀行为. 研究结果表明, 摩尔比为1∶1的聚电解质水凝胶表现出典型的两性聚电解质凝胶的溶胀行为. 离子强度对其溶胀行为有着显著影响, 在溶液离子强度较高时, 凝胶网络的溶胀主要受溶剂向凝胶内部扩散所控制, 满足Fick型扩散规律n≤0.5, 随着溶液离子强度的增加, 凝胶网络平衡含水量增加, 扩散系数增大.     

聚乙烯吡咯烷酮/黏土纳米复合水凝胶的制备及表征

通过原位聚合法, 以N-乙烯基吡咯烷酮(NVP)和黏土为原料制备了生物相容性有机-无机纳米复合水凝胶, 通过黏度、透明度、XRD及力学性能等研究了水凝胶体系的性质和微观结构. 结果显示, 单体NVP通过氢键作用吸附于黏土粒子周围, 从而有效阻止黏土颗粒的凝胶化; 通过对聚合过程透明度的变化、凝胶吸水性能以及拉伸力学性能分析发现, 其反应机理与丙烯酰胺类体系不同. 黏土颗粒间网链较短, 导致吸水率和断裂伸长率明显低于聚丙烯酰胺/黏土体系, 但模量和拉伸及压缩强度明显增加; XRD结果显示, 干凝胶中黏土颗粒呈有序排列, 随着黏土含量增加, 黏土粒子间距变小, 而在含水复合凝胶中, 黏土颗粒以剥离态均匀分散; 对于凝胶表面的细胞形态观察初步检验了此类纳米复合凝胶的细胞相容性, 未观察到显著不良影响.     

聚合物纳米微球增韧水凝胶的制备与表征

通过无皂乳液聚合制备阳离子纳米微球(NPs),并将其作为疏水交联中心来制备高强韧水凝胶。体系中的疏水单体甲基丙烯酸月桂酯(LMA)在表面活性剂作用下聚集到纳米微球表面,形成疏水缔合中心,通过原位引发自由基聚合得到纳米微球杂化的聚丙烯酰胺疏水缔合水凝胶P(AAm-LMA)-NPs。当凝胶受到应力时,由纳米微球形成的动态交联点通过断裂与重组可以有效地耗散能量,极大地提高了凝胶的强度和韧性。因此,所制备的P(AAm-LMA)-NPs水凝胶表现出十分优异的机械性能,其最大拉伸强度可达860 kPa,断裂伸长率为1280%,断裂韧性为3.8 MJ/m³。聚合物纳米微球增韧水凝胶的力学性能优异,有望在生物医学和工业领域有重要应用。     

聚富马酸丙二醇酯/羟基磷灰石复合多孔水凝胶的制备及其矿化性能研究

采用二步法合成了可降解的聚富马酸丙二醇酯(poly(propylene fumarate),PPF),并和N-乙烯基吡咯烷酮(N-vinyl pyrrolidone,NVP)共聚,以1,4-二氧六环为溶剂,通过改变溶剂的量制备了溶胀性能不同的PPF水凝胶.采用万能力学测试仪和扫描电子显微镜分别表征了水凝胶的压缩模量和形貌结构.选择20％ PPF和10％ NVP的聚合体系,预掺3％的纳米羟基磷灰石(hydroxyapatite,HA),以氯化钠粒子为致孔剂,制备了孔径在280～450 μm的纳米复合多孔水凝胶,使其压缩模量提高了61％.模拟体液矿化10天的结果显示,磷灰石成核位点的存在和良好的与外界液体环境物质交换的能力,促进了多孔水凝胶表面磷灰石的沉积,说明HA的复合可以有效提高PPF多孔水凝胶的成骨活性.     

纳米复合模板水凝胶的制备及其性能

以非离子表面活性剂聚氧乙烯(20)鲸蜡醇醚(Brij58)为模板, 采用自由基聚合制备得到聚(N-异丙基丙烯酰胺)/Brij58/粘土纳米复合模板水凝胶(PLH). 相比于传统纳米复合水凝胶, PLH水凝胶力学性能与亲水性明显改善. 场发射扫描电镜(FESEM)结果表明: Brij58的引入导致传统纳米复合水凝胶的孔洞数量增加, 孔与孔相互贯穿, 大孔结构更加规整, 大孔之间由众多小孔连接. 拉伸应力-应变、储能模量和溶胀动力学研究结果表明, 断裂应力、断裂负载和断裂伸长率随Brij58含量的增加呈先增加后降低的趋势, 然而水凝胶储能模量与最大溶胀度随Brij58含量的增加而增加. 同时, 表面接触角结果表明: 由于Brij58的模板作用和Brij58同粘土之间的吸附作用, 使PLH水凝胶表面接触角先增大后减小.     

黏土基纳米复合水凝胶

介绍了一种以黏土为交联剂的新型纳米复合水凝胶, 重点阐述了水凝胶的结构特点, 制备方法及其特有的力学性能, 自修复性能, 透明度和溶胀性。     

声-光-力-热耦合作用下光热敏感水凝胶的溶胀变形行为

超声波在两种介质间传播时，声动量的转移在界面处产生超声辐射应力引发水凝胶形变。为研究光热敏感水凝胶在超声波、光辐射、机械载荷以及温度耦合作用下的大变形行为，采用变分法建立了光热敏感水凝胶声-光-力-热耦合本构模型，研究了声匹配条件下水凝胶单轴预拉伸时超声波强度、光强和温度对其溶胀行为的影响。研究结果表明：单轴预拉伸数值越大，水凝胶的平衡溶胀率越大；超声波强度越强，水凝胶的平衡溶胀率越大，平衡溶胀率随超声波强度增大呈线性递增关系；而随着温度升高，水凝胶的平衡溶胀率先减小后增大，存在一极小值；平衡溶胀率达到极小值时的温度值随预拉伸和超声波强度的增加而升高，随光强增加而降低；当环境温度超过极小值出现时的温度值后，预拉伸和超声波强度变化对水凝胶溶胀行为几乎没有影响，但光强变化对水凝胶溶胀行为仍有一定影响。     

表面活性剂对疏水缔合水凝胶性能的影响

通过丙烯酰胺(AM)和丙烯酰胺基十八羧酸钠(NaAAS)共聚合,在没有任何外加化学交联剂的情况下,分别在水溶液和十二烷基硫酸钠(SDS)溶液中通过自由基聚合制备了疏水缔合水凝胶,命名为HA凝胶和SHA凝胶.系统研究HA凝胶和SHA凝胶的机械拉伸性能发现,调节AM和NaAAS的含量,可以使SHA凝胶具有相较不含SDS的HA凝胶更好的力学拉伸性能.HA凝胶在水中不溶解且在纯化和溶胀过程中几乎没有损失,而SHA凝胶体系中的SDS可以扩散出凝胶网络溶解到水中,使得SHA凝胶表现出更加明显的溶胀-去溶胀-平衡溶胀行为;在盐水中由于疏水缔合得到加强,HA凝胶和SHA凝胶都表现出化学凝胶的溶胀特点.在常温下HA凝胶不能实现自愈合,而SHA凝胶具有较好的自愈合能力,并且自愈合效果可以通过SHA凝胶中SDS和聚合物固含量调节.     

Stimuli-responsive nanocomposite gels

A new class of polymer hydrogels, nanocomposite hydrogels (NC gels), consisting of a unique organic (polymer)/inorganic (clay) network structure, was synthesized by in situ free-radical polymerization in the presence of exfoliated clay nanoparticles in an aqueous system. The resulting NC gels overcame most of the disadvantages associated with chemically cross-linked hydrogels, such as mechanical fragility, structural heterogeneity, and slow de-swelling rate. By using thermo-sensitive poly(N-isopropylacrylamide) (PNIPA) as a constituent polymer, NC gels with remarkable mechanical, optical, and swelling properties as well as thermo-sensitivity were obtained. The various properties of NC gels, such as transparency, gel volume, cell culturing, and surface friction changed significantly in response to the temperature and surrounding conditions. All the excellent properties and new stimuli-responsive characteristics of NC gels are attributed to the unique PNIPA/clay network structure. The thermo-sensitivities and the transition temperature can largely be controlled by varying the clay content and by the addition of solutes.     

PREPARATION AND PROPERTIES OF CLAY/POLY（N-ISOPROPYLACRYLAMIDE-co-A CRYL AMIDE） NANOCOMPOSITE HYDROGELS

A series of clay/poly(N-isopropylacrylamide-co-acrylamide) nanocomposite hydrogels (S-N-M gels) have been successfully prepared by in situ polymerization. The mechanical properties,swelling behavior of S-N-M gels and the transparency changes during polymerization of S-N-M gels have been systematically investigated. Compared to traditional hydrogeb, S-N-M gels show excellent tensile properties and their swelling ratio increases with increasing acrylamide (AAm) content. The results of stress relaxation indicate that the stress loss decreases with increasing AAm content. It was surprisingly found that the transparency during all S-N-M gel synthesis changes abruptly, and the changes become more abrupt with increasing N-isopropylacrylamide content. It was concluded that the fact may be related to the hydrophilicity of copolymers. The weaker the hydrophilicity of copolymer, the more apparent the transparency change during S-N-M gels polymerization. We believe the relationship between hydrophilicity of copolymer and transparency changes will help to design novel nanocomposite hydrogels.     

PREPARATION AND PROPERTIES OF CLAY/POLY(N-ISOPROPYLACRYLAMIDE-co-ACRYL AMIDE)NANOCOMPOSITE HYDROGELS

Polymer hydrogels as a kind of soft materials have attracted increasing scientific and technological interest in past several decades. These materials have been applied widely in many fields [1], such as molecular filter [2,3], superabsorbent [4], and contact lenses [5] etc. However, synthetic polymeric hydrogels are seldom used as mechanical devices due to the lack of mechanical strength. Therefore, it is very imperative to improve their mechanical properties for wider use of polymeric hydrog…     

Novel polymer nanocomposite hydrogel with natural clay nanotubes

Polymer nanocomposite gels (NC gels), a kind of typical soft materials, can be synthesized through free-radical polymerization of water-soluble monomers in the presence of nanoclay in aqueous system. Here, novel natural tube-like nanoparticles, halloysite nanotubes (HNTs), are firstly used as multifunctional cross-linkers for polyacrylamide (PAAm) to form a new type of organic/inorganic hybrid hydrogels. Significant improvements in mechanical properties of the PAAm-HNTs NC gels are found by the addition of HNTs as shown by the static mechanical testing and dynamic viscoelasticity measurement. HNTs are uniformly dispersed in the NC gels from the morphological result. HNTs can be intercalated by PAAm chains as observed by the X-ray diffraction result. Hydrogen bonding interactions between HNTs and PAAm are confirmed by the infrared spectroscopy and X-ray photoelectron spectroscopy. The maximum equilibrium degree of swelling (EDS) for the NC gel is 4000% and the EDS decreases with the concentration of clay nanotubes. The present work provides a novel routine for preparing NC gels using “green” one-dimensional nanoparticle. The prepared NC gels have promising application in biomedical areas due to the superior mechanical properties of the gels and good biocompatibility of HNTs.     

Synthesis and properties of a novel double network nanocomposite hydrogel

A novel polyacrylamide/polyacrylic acid (PAAm/PAA) double network (DN) nanocomposite (NC) hydrogel had been synthesized by two‐step solution polymerization. The PAAm network was crosslinked by inorganic clay while the PAA network was crosslinked by a chemical crosslinker. The chemical structure of the network was confirmed by Fourier transform infrared (FTIR), X‐ray diffraction (XRD), and transmission electron microscopy (TEM). The swelling and mechanical strength properties of PAAm/PAA hydrogels were examined. The results showed that a DN hydrogel achieved both a high swelling capacity of 1219 g/g in deionized water and 124 g/g in 0.9 wt% NaCl solution and high compressive stress of 21.5 kPa in a high water content of 99.58%. Copyright © 2008 John Wiley & Sons, Ltd.     

Effect of montmorillonite on gelation and swelling behavior of sulfonated polyacrylamide nanocomposite hydrogels in electrolyte solutions

Nanocomposite hydrogels were prepared by cross-linking of aqueous solutions of sulfonated polyacrylamide/sodium montmorillonite with chromium triacetate. The gelation process and effects of clay content and ionic strength on swelling behavior were investigated. X-ray diffraction patterns indicated that exfoliated type of microstructure was formed. Study of the gelation behavior using dynamic rheometery showed that the limiting storage modulus of the nanocomposite (NC) gels decreased with increasing clay content up to 1000 ppm, but it increased by further increase of Na⁺-montmorillonite concentration. It was also found that with increasing the clay content, the viscous energy dissipation properties of the nanocomposite gels increased. The swelling ratio of nanocomposite gels in tap water decreased as the concentration of the clay increased. However, nanocomposite gels showed higher resistance against syneresis in electrolyte solutions as compared with unfilled gels. Therefore, they are potentially good candidates for enhanced oil recovery applications.     

Effects of counter ions of clay platelets on the swelling behavior of nanocomposite gels

The effects of replacing the native Na(+) counter ions associated with the clay platelets by various other cations on the swelling behavior of nanocomposite (NC) gels consisting of an organic (polymer)/inorganic (clay) network were investigated. The negative surface charge of the clay platelet conferred an ionic nature on the NC gels making them a type of polyelectrolyte gel; consequently, the swelling behavior of the NC gels was strongly influenced by the valence of the co-existing counter ions. NC gels containing monovalent cations such as Na(+), K(+) and Li(+) exhibited large swellings and subsequent deswelling in water after attaining maximum degrees of swelling. In contrast, introduction of multivalent cations such as Ca(2+), Mg(2+), and Al(3+) into NC gels depressed markedly both the swelling and subsequent deswelling. The decreased swelling and suppressed deswelling with multivalent ions were strongly influenced by the initial gel state and result from the formation of additional cross-links through ionic interactions between the clay platelets and the multivalent cations. Also, the similar swelling behaviors were observed for all NC gels with different clay concentration. Further, reversible absorption/desorption and selective absorption of multivalent cations were observed for the NC gels examined.     

Amphiphilic urethane acrylate hydrogels having heterophasic gel structure: swelling behaviors and mechanical properties

 Amphiphilic urethane acrylate hydrogels containing ionic group (dimethylopropionic acid, DMPA) were prepared by varying the molecular weight of the soft segment (polyether type, PTMG) and type of diisocyanate, and their swelling behaviors and mechanical properties were examined. They showed amphiphilic property due to the hydrophilic ionic groups and hydrophobic polyethers comprising the urethane acrylate network. Heterophasic gel structure could be found for the hydrogels prepared in water, but not for the hydrogels in organic solvent (1,4-dioxane), through scanning electron microscopy. Because of this heterophasic gel structure, they were able to take in a large amount of water as well. The hydrophobic interaction generated by the polyether soft segments between urethane acrylate network chains decreased the degree of swelling, however, increased reversibly the tensile strengths at equilibrium swelling state. MDI-based hydrogel showed low swelling ratio and high tensile strength because of its ordered hard domain structure. These amphiphilic urethane acrylate hydrogels showed salt- and pH-dependent swelling behaviors. Received: 26 September 1997 Accepted: 24 December 1997     

Dynamic swelling performance of hydrophobic hydrogels

Conventional gels manifest monotonous swelling or shrinking performance upon immersing in solvents until reaching an equilibrium state. Recently, we discovered that the “hydrophobic hydrogels” prepared from hydrophobic polymer networks demonstrated dynamic swelling performance without equilibrium states. Upon water immersion, the gels expanded tremendously at the first stage until reaching a swelling peak; subsequently, the gels shrunk at an extremely slow rate. While this phenomenon endows the ...     

高机械性能的聚(丙烯酸-co-甲基丙烯酸十八酯)疏水缔合凝胶的溶胀行为研究

以丙烯酸(AA)、甲基丙烯酸十八酯(OMA)、十二烷基硫酸钠(SDS)为原料,采用胶束共聚的方法合成了疏水缔合(HA)凝胶.在HA凝胶内部,表面活性剂SDS与疏水单体OMA组成的增溶胶束起到物理交联作用,将亲水的聚合物链交联起来.通过单向拉伸试验证实了该凝胶具有较高的机械性能.此外,也测试了HA凝胶在不同pH值溶液中的溶胀行为.结果显示,HA凝胶具有特殊的溶胀行为,其溶胀过程可以分为凝胶溶蚀、溶胀平衡和凝胶瓦解3个阶段.在强酸性条件下,凝胶的溶胀被抑制,没有出现凝胶瓦解阶段.在强碱性条件下,凝胶的溶胀被促进,溶胀平衡阶段被越过.盐的存在也会抑制HA凝胶的溶胀,但在SDS溶液中,溶液中的SDS会促使凝胶中的疏水改性聚合物溶解到溶液中去,组成新的缔合结构,而使溶液增稠。