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热敏性功能材料聚N-乙烯基己内酰胺的辐射聚合 总被引:3,自引:0,他引:3
具有低临界相变温度(LCST)的温度敏感性高聚物是一类特殊热性能的高聚物。当环境温度低于LCST时,其在溶液中的溶解性会随着温度升高缓慢降低。但一旦温度升高到LCST附近很小范围里,其溶解性会突然降低,出现热沉降,而且这种变化是可逆的。这类高聚物中研究较多也最具代表性的是聚N-异丙基丙烯酰胺(PNIPAAm)和聚N-乙烯基己内酰胺(PNVCL),因为这两种聚合物的LCST都处于生理温度范围内(30-40℃),使它们的系列高聚物在生物和医药材料中有极其广泛的应用前景^[1,2]。相比而言,PNVCL的研究与应用不PNIPAAm开展得早和完善,但其具有比PNIPAAm更好的生物相容性。所以近年来在生物大分子的分离、浓集、固定化以及药物的包埋和缓释等方面对PNVCL的研究也逐渐开展起来^[3,4,5]。目前,热敏性PNVCL高聚物主要采用化学法合成^[6,7],辐射合成几乎未见报道。为此,本文采用γ辐射聚合聚N-乙烯基己内酰胺(PNVCL)的可溶性链状高聚物。研究辐射条件对其热敏性、平均分子量等的影响。 相似文献
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在不同溶剂采用沉淀聚合法制备了聚N-乙烯基己内酰胺PNVCL、聚N-乙烯基咪唑PNVI及其共聚物。实验发现,正己烷和环己烷适宜于PNVCL的沉淀均聚,甲苯适宜于PNVI的沉淀均聚,而两种单体共聚时,采用正己烷-甲苯混合溶剂可实现共聚物的沉淀聚合。考察了溶剂用量、引发剂AIBN用量、聚合温度、时间和搅拌对聚合物收率和温敏性的影响。采用分光光度计对温敏性进行了初步表征。结果表明,沉淀聚合得到的PNVCL具有最低临界溶液温度LCST,PNVI不具有LCST,共聚物的LCST突变不明显。 相似文献
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C60接枝聚(N-乙烯基咔唑)的合成、表征及光电导性能 总被引:2,自引:0,他引:2
自从C60被发现和被制备出来以后,其特殊的结构和独特的物理和化学性质受到各研究领域学者的广泛青睐.聚(N-乙烯基咔唑)(PVK)体系经 C60掺杂后光电导性能有很大幅度提高.但掺杂体系不稳定,因而限制了对该类材料的应用.为了克服这种缺点,我们尝试用各种简单的方法把C60化学键合到高分子链中,制备具有光电导性能的C60高分子衍生物. 最近,唐本忠[1]和 Patil[2]等分别用常规的自由基聚合方法,将C60接枝到聚合物分子主链上,我们已研究了不含导电高分子的C60共聚物的光电导性能[3],本文采用… 相似文献
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博·格日勒图 《高等学校化学学报》1995,16(4):648
制备线型和网状N-乙烯基咔唑-丙烯酸甲酯共聚物后,用三氟乙酸汞分别在四氢呋喃(THF)和二氯甲烷中进行汞化反应,得到相应的线型和网状汞代咔唑共聚物。这些共聚物经THF溶解或溶胀后,用氢氧化钠水溶液水解,得到相应的水溶性线型高分子和吸水性网状高分子,憎水性汞代咔唑共聚物在THF中由I2取代汞;亲水性汞代咔唑共聚物在水溶液中由KI3取代汞。汞代咔唑高分子链在不同溶剂中可以产生不同的形态变化。 相似文献
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Eu(Ⅲ)-聚N-乙烯基乙酰胺高分子配合物的合成及光谱性质研究 总被引:7,自引:0,他引:7
稀土离子与高分子配位基团直接成键而形成的稀土高分子配合物因其独特的荧光特性更受到各国科学工作者广为关注[1~ 4] .尤其含铕稀土高分子化合物兼具稀土离子高发光特性与高分子化合物易加工特点 ,可望成为一种具有高荧光效率、对光热稳定、分散均匀等特殊功能的新材料[5~ 6] .目前将稀土离子直接键合在高分子链上而获得键合型高分子主要有以下三种途径 :一是稀土离子与含配位基团的聚合物配位 ;二是稀土离子同时与高分子链上的配位基和小分子配体作用形成高分子稀土配合物 ;三是含小分子稀土配合物单体直接进行聚合等[7] .聚N 乙烯基乙… 相似文献
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N-乙烯基咔唑三羰基铬的合成和自由基聚合反应 总被引:2,自引:0,他引:2
合成一种新的金属铬有机单体N-乙烯基咔唑三羰基铬,经元素分析、IR和1HNMR确证和表征.研究结果表明,N-乙烯基咔唑三羰基铬能发生自由基聚合反应,得到结构单元含等物质的量铬的金属有机高分子,苯环及含氮给电子中心的共轭效应能在一定程度上弥补由Cr(CO)3基团吸电子诱导效应引起的单体聚合活性的下降 相似文献
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热敏性聚(N-乙烯基异丁酰胺)接枝高分子微球的合成 总被引:8,自引:0,他引:8
用自由基聚合和端基反应法合成了大分子单体聚 (N 乙烯基异丁酰胺 ) (PNVIBA) ,将其与苯乙烯在乙醇 水的混合溶剂中进行分散共聚 ,得到了PNVIBA接枝聚苯乙烯 (PNVIBA g PSt)高分子微球 .用GPC、激光光散射和电子显微镜等对聚合物的分子量和微球直径及形态进行了表征 .研究结果表明 ,大分子单体PNVIBA和PNVIBA g PSt高分子微球具有明显的热敏性 ,并且发现PNVIBA g PSt微球直径和形态可通过改变反应条件加以控制 ,得到了一种新形态的亚微米级高分子微球 相似文献
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Hatice Kaplan Can 《高分子科学杂志,A辑:纯化学与应用化学》2016,53(1):26-33
The binary copolymerization of maleic anhydride (MA) and N-vinyl caprolactam (VCL) or considered as acceptor (A)?donor (D) monomer systems were used (MA:VCL) 50:50 in BPO (0.5%) as an initiator at 70°C under nitrogen atmosphere. The functional copolymers, having a combination of rigid/flexible linkages and an ability of complex-formation with interlayered surface of organo-silicate, and their nanocomposites have been synthesized. Interlamellar in situ complex-radical copolymerization of intercalated monomer complexes of MA and VCL undergoes with stearyl amine surface modified montmorillonite (O-MMT) and monomer mixtures. Charge transfer complex formation was followed and identified by UV-Vis-NIR spectroscopy. Equilibrium constant (KAD) molar absorption coefficient (?AD)) of the complex were determined by the Benesi-Hildebrand, Scott and Ketaalar equations respectively. The results show that copolymerization of MA:VCL system was preceded via alternating copolymerization mechanism. Obtained functional alternating copolymer and copolymer/O-MMT nanostructures were characterized by XRD and TEM. 相似文献
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A. A. Tager A. P. Safronov S. V. Sharina I. Yu. Galaev 《Colloid and polymer science》1993,271(9):868-872
The lower critical solution temperature of aqueous solutions of poly(N-vinyl caprolactam) falls in the 305–307 K range and depends on the molecular weight of the polymer. The thermodynamic functions of mixing at 298 K have been calculated from measurements of vapor pressures and heats of dissolution and dilution. Partial Gibbs energy, partial enthalpy, and partial entropy of mixing were negative over the entire range of composition. Increasing temperature resulted in a decrease in the exothermal character of mixing. Excessive heat capacity values, calculated from the dependencies of enthalpy of mixing on temperature, were positive over the entire composition range. Heat capacity of dilute solutions was measured at 298 K and partial heat capacity of poly(N-vinyl caprolactam) at infinite dilution was shown to be positive. The data obtained point out the hydrophilic and hydrophobic hydration of poly(N-vinyl caprolactam) in aqueous solutions. Hydrophobic hydration dominates at temperatures close to binodal curve. As a result, the mutual mixing of the polymer with water is decreased and phase separation takes place. 相似文献
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Elena A. Markvicheva Svetlana V. Kuptsova Tatyana Yu. Mareeva Alexander A. Vikhrov Tamara N. Dugina Svetlana M. Strukova Yury N. Belokon Konstantin A. Kochetkov Ekaterine N. Baranova Vitali P. Zubov Denis Poncelet Virinder S. Parmar Rajesh Kumar Lev D. Rumsh 《Applied biochemistry and biotechnology》2000,88(1-3):145-157
A one-step mild method for entrapping animal cells and enzymes in macroporous composite poly (N-vinyl caprolactam)-calcium alginate (PVCL-CaAlg) hydrogels is described. Some properties of immobilized enzymes, such as
thermal and storage stabilities and stability in water/organic media were investigated. Composite PVCL-CaAlg gels were successfully
applied to immobilize a number of proteases, namely, trypsin, α-chymotrypsin, carboxypeptidase B, and thrombin. Thermal stability
of the immobilized preparations obtained by entrapment in hydrogel beads allowed us to use them at 65–80†C, while the native
enzymes were completely inactivated at 50–55°C. Various applications of enzymes and cells immobilized in beads weredemonstrated.
Immobilized trypsin and carboxypeptidase B were applied to prepare human insulin from recombinant proinsulin. The hydrogel
beads with entrapped α-chymotrypsin were used in enantioselective hydrolysis of Shiff's base of D,L-phenylalanine ethyl ester
(SBPH) in acetonitrile/water medium. Thrombin immobilized in PVCL-based hydrogel films was shown to be a promising compound
for wound treatment. To prepare pure preparations of monoclonal antibodies (MAb) several hybridoma cell lines, including hybridoma
cell lines producing MAb to interleukin-2, were successfully cultivated in the hydrogel beads. 相似文献
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A. A. Tager A. P. Safronov E. A. Berezyuk I. Yu. Galaev 《Colloid and polymer science》1994,272(10):1234-1239
Phase diagrams of aqueous solutions of poly(N-vinyl caprolactam) (PVCL), N-vinyl caprolactam copolymer with vinylamine (3.8 mol%) (CP(VCL-VA)), and poly(N-vinyl propylacetamide) (PVPA) were shown to be binodal curves with lower critical solution temperatures (LCST) in the range 304–313.5 K and critical concentrations in the range of 0.02–0.08 polymer weight fraction. Aqueous solutions of N-vinyl caprolactam copolymer with N-vinyl pyrrolidone (80 mol%) (CP(VCL-VP)) remained homogeneous in the entire region of the liquid state of water. The enthalpy of mixing with water of PVPA and CP(VCL-VP) was negative and the curve was concave over the entire range of composition at 298 and 308 K. The excessive heat capacity and partial heat capacity at infinite dilution of PVPA were positive, proving the hydrophobic character of hydration of this polymer. In contrast, these parameters were negative for CP(VCL-VP), revealing hydrophilic hydration. Hydrophilic hydration was predominant in solutions which were homogeneous over a wide temperature range, whereas hydrophobic hydration predominated in solution of polymers with LCST. 相似文献
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G. V. Shatalov V. N. Verezhnikov T. V. Plaksitskaya V. A. Kuznetsov T. N. Poyarkova A. V. Yan’shina 《Polymer Science Series A》2006,48(6):563-568
Thermosensitive copolymers of N-vinyl carprolactam with N,N-dimethylaminoethyl methacrylate have been synthesized via free-radical polymerization, and reactivity ratios in dioxane have been estimated as 2.44 and 0.07, respectively. It has been shown that temperatures of phase separation for 1% aqueous solutions of homopolymers are close and remain virtually unchanged with the copolymer composition. The efficiency of flocculating behavior of copolymers with respect to a polystyrene latex has been estimated from the initial rate of flocculation as a function of the polyelectrolyte concentration in an acidic medium. 相似文献
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Smart PVCL-based nanogels for photosensitizers were prepared following the thermo precipitation methodology. PVCL-based imprinted and non-imprinted NGs are reported with different percentages of N,N′-methylenebisacrylamide (BIS) as crosslinker agent. Zn(II)phthalocyanine (ZnPc) is employed as a model photosensitizer and incorporated as a template molecule for imprinted NGs or it loads post-synthesis for non-imprinted NGs. In order to analyze the chemical structure, NGs were characterized using infrared microscopy. Hydrodynamic diameter was determined by dynamic light scattering. The phase transition temperature was measured by UV–vis spectroscopy. The phase transition temperature and Dh values were regulated by the percentage of crosslinker and the presence of the photosensitizer as a template or post-synthesis load. In all cases, the yields were acceptable and the smart nanodevices were stable. 相似文献
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Jianlei Lu Xionglin Zhou Jialin Sun Mengdi Xu Mingming Zhang Chuanzhuang Zhao 《Journal of polymer science. Part A, Polymer chemistry》2021,59(15):1701-1710
Poly(methylacrylamide) (PMAM) is a thermo-responsive polymer with an upper critical solution temperature (UCST). Its cloud point (Tcp) is around 60 °C, unsuitable for certain biomedical and industrial applications. This study brought up a copolymerization strategy to tune the Tcp of PMAM with hydrophilic comonomers. Surprisingly, with a small portion of hydrophilic monomer doped, the Tcp of the PMAM copolymer can be significantly shifted. For instances, with ≤7 mol% of acrylamide or 1 mol% of oligo(ethylene glycol) methacrylate, the Tcp can be shifted in a wide range from ~69 to ~0 °C. Microdifferential scanning calorimetry demonstrated that the enthalpic effect during the phase transition of the solutions is indistinctive, while fluorescence measurement with pyrene as a probe revealed that the hydrogen-bonding within polymer chains is enhanced by the hydrophobic aggregation of methyl groups. Therefore, the doped hydrophilic monomer could remarkably alter the ordering of water-molecules and the extent for the aggregation of methyl groups, leading to the pronounced shifting in the Tcp of the copolymers. This work would facilitate the application of PMAM as smart polymer materials and guide the inventions of functional materials based on UCST polymers. 相似文献
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