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PEG作为成孔剂对聚(N-异丙基丙烯酰胺-co-丙烯酸)水凝胶性能的影响 总被引:1,自引:0,他引:1
以PEG400,1000,6000为成孔剂,合成了一系列聚(N-异丙基丙烯酰胺co丙烯酸)水凝胶,研究了成孔剂分子量和数量对凝胶性能的影响.结果表明,聚乙二醇(PEG)分子充当成孔剂,不参与反应.PEG分子量越大,投料越多,所得凝胶孔的孔径越大,孔数目越多,在室温时可以容纳更多的水分子,因而溶胀率也越大.凝胶的大孔结构有利于水分子的进出,所以响应速率比普通共聚凝胶快.随着PEG分子量增大,孔数目增多,响应速率相应变快. 相似文献
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Three model drugs with different function groups were chosen to dialyze with dextran-graft-poly(N-isopropylacrylamide).Only ibuprofen could induce the formation of drug loaded micelles,which was confirmed with dynamic light scattering and transmission electron microscope.Hydrogen-bonding between the amide groups of poly(N-isopropylacrylamide) and the carboxyl groups of ibuprofen was driving force for the drug-loaded micelle.It was also found that the diameter of the ibuprofen-loaded micelles changed reversibly against temperature. 相似文献
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The volume phase transition in gels induced by visible light and its related properties are presented, the mechanism of which is based on local heating of a polymer network by illumination of light. The gels consist of a covalently cross-linked copolymer network of thermosensitive N-isopropylacrylamide and a chromophore. Without light illumination, the gel volume changes sharply, but continuously at approximately 34°C when the temperature is varied. At a fixed temperature of an appropriate value, a discontinuous volume transition is observed when the light intensity is gradually changed. The phase transitions can be understood in terms of the temperature increment at the immediate vicinity of polymer chains due to the local heating via light absorption and subsequent thermal dissipation of light by the chromophore. The results can be qualitatively described by the Flory-Huggins mean-field equation of state of gels. In order to make clear the mechanism of the light-induced phase transition in the present system, we measured the light transmitting properties and the swelling as well as shrinking kinetics. These preliminary results are described semi-qualitatively by making use of a simple phenomenological model. 相似文献
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Simple preparation of stimuli-responsive hydrogels with good mechanical properties and mild stimuliresponsiveness is essential for their applications as smart soft robots.Mechanically strong Janus poly(Nisopropylacrylamide)/graphene oxide (PNIPAM/GO) nanocomposite hydrogels with stimuli-responsive bending behaviors are prepared through a simple one-step method by using molds made of a Teflon plate and a glass plate.Residual oxygen in the air bubbles on the Teflon plate surface affects the polymerization and hence the cross-linking density,leading to the different swelling/deswelling rates of the two sides of the gels.Therefore,the hydrogels exhibit bending/unbending behaviors upon heating/cooling in water.The incorporation of GO nanosheets dramatically enhances the mechanical properties of Janus hydrogels.Meanwhile,the photo-responsive property of the GO nanosheets also imparts the hydrogels with remotecontrollable deformation under IR irradiation.The application of the Janus PNIPAM/GO hydrogels as thermo-responsive grippers is demonstrated. 相似文献
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Halima Alem 《Polymer Degradation and Stability》2010,95(3):327-331
Surface initiated polymerization of N(isopropylacrylamide) (NIPAM) was performed by controlled radical polymerization on PET track-etched membranes presenting two different pore diameters (narrow pores: ∼80 nm and large pores: ∼330 nm). The opening and closing characteristics of the resulting PNIPAM-g-PET membranes were investigated by conductometric measurements carried out at different temperatures below and above the LCST of PNIPAM and in the presence of different salts. Depending on the membrane pore size, two types of permeation control mechanisms are observed. In large pore membranes, expanded PNIPAM chains conformations result in reduced effective pore size and therefore lower permeabilities relative to collapsed macromolecules chain conformations. In contrast, in narrow pore membranes, the expanded PNIPAM brush presents greater degrees of hydration in the surface layer and therefore gives rise to higher permeabilities than the collapsed conformation. In this situation, the overall permeability is thus comparable to that of a hydrogel membrane. 相似文献
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含金刚烷基的N-异丙基丙烯酰胺共聚物水凝胶的制备和性能研究 总被引:1,自引:0,他引:1
合成了含金刚烷基的甲基丙烯酸金刚烷酯(AdMA)疏水单体,并通过与N-异丙基丙烯酰胺(NIPAM)共聚,制备了温敏性的(P(NIPAM-co-AdMA))共聚物水凝胶.用傅里叶变换红外光谱仪(FTIR)表征了凝胶的化学结构,用环境扫描电镜(ESEM)对凝胶断层结构的形貌进行了观察,用DSC测试了凝胶的体积相转变温度(LCST),并研究了共聚水凝胶的溶胀性能.结果表明,共聚物水凝胶的LCST能够高效地通过改变疏水单体的含量来调节,在实验所考察的范围内,LCST随AdMA含量的增加而线性降低;疏水单体的含量对凝胶的孔洞结构和溶胀性能存在一最优值,在最优的单体配比下,水凝胶具有均匀规整的大孔结构和超快的响应速率.如疏水单体含量为3%(AdMA∶NIPAM=3%)的共聚物水凝胶具有如渔网般均匀的多孔结构,当发生去溶胀时,在5min内就可以失去92%的水,不到10min的时间就可以完全达到去溶胀平衡,水保留率在4%以下. 相似文献
28.
Thomas Hellweg 《Journal of polymer science. Part A, Polymer chemistry》2013,51(14):1073-1083
Core–shell microgels are of increasing interest as smart carriers of catalysts, as sensors, or as building blocks for colloidal superstructures. In the context of colloidal assemblies, photonic applications are probably the most promising ones. This progress report presents and discusses the most recent results in this area focusing on the last 2–3 years, and also gives some background information. In addition, potential perspectives of this area will be outlined. © 2013 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2013, 51, 1073–1083 相似文献
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Microspheres with thermo-responsible surface were fabricated by PCL-b-PEO-b-PNIPAM triblock copolymers. Thermo-responsible morphological changes of PCL-b-PEO-b-PNIPAM microspheres immersed in aqueous solution at temperatures above the LCST (e.g. 37 °C) were observed from porous surface structure to compact surface layer. Enzymatic degradation and in vitro drug release results showed that the thermo-responsible surface layer greatly influenced the degradation of microspheres as well as the drug release behavior from microspheres. With the copolymerization of PNIPAM block into PCL-b-PEO copolymers, the drug release could be well regulated by changing temperatures and microspheres composition, which revealed the great potentials of microspheres with thermo-responsible surface for controlled drug release. 相似文献