磁性高分子
- 网络magnetic polymer
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Fe3O4/PANI磁性高分子微球的制备与研究
Preparation and Investigation of Fe_3O_4 / PANI Magnetic Polymer Microspheres
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以Fe3O4为核,采用分散聚合法,合成了粒径为0.5~2.0μm、单分散性好、磁含量可达10%的PSt、P(St/MAA)磁性高分子微球。
Uniform magnetic polymer microspheres in 0.5-20 μ m size range and up to 10 % magnet contents were prepared by dispersion polymerization .
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磁性高分子链的磁性质和构象性质的MonteCarlo模拟
Monte Carlo study on magnetic and configurational properties of magnetic polymer chains
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氨基功能化纳米Fe3O4磁性高分子吸附剂对废水中Cr(VI)的吸附研究
Adsorption Studies on Cr ( VI ) in Wastewater by NH_2-functionalized Nano-Fe_3O_4 Magnetic Composites
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本文旨在用一种经济、快速的方法合成一种磁性高分子微球,并将其应用于对质粒DNA分子吸附的研究。
A kind of magnetic supports which can be used in the process of adsorbing plasmid has been prepared in a fast and economic way .
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通过考察聚合时间、聚合材料的配比对微球粒径、形态、Fe3O4的包裹量及表面氨基含量的影响,得到了包裹率为22%,表面氨基携带量为0.24mmol/g的磁性高分子微球。
The magnetic composite polymer microsphere with 0.24 mmol / g amido groups and 22 % enwrapping efficiency were prepared .
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微米级PSt,P(St/MAA)磁性高分子微球的合成Ⅰ.温度、引发剂、介质极性、稳定剂量的影响
Synthesis of the Uniform Magnetic Polymer Microspheres of Polystyrene and Polystyrene / Methylacrylic Acid in Micron Size Range ⅰ . Effect of Temperature , Initiator , Disperse Media and Stabilizer
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生物催化中固载酶的高效载体MCM-41的低温合成与表征磁性高分子微球用于固定化酶的研究进展&生物材料结构及性质的基础研究及其应用于药物的控制释放
Synthesis and Characterization of High Efficiency Supports MCM 41 of Enzyme Immobilization in Biocatalysis ADVANCES IN ENZYME IMMOBILIZATION USING MAGNETIC POLYMER MICROSPHERES
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反应型纳米级磁核聚烯烃类磁性高分子材料的研究Ⅲ.纳米级CrxFe3-xO4磁性载体的制备和性能研究
Studies on the Magnetic Polymer with Nanometer Magnetic Dispersing Phase ⅲ . Studies on Preparation and Properties of Cr xFe 3-x O 4 Nanocrystalline Magnetic Carrier
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在制备含羧基的磁性高分子微球时,分别选用丙烯酰胺、N,N′-亚甲基双(丙烯酰胺)和丙烯酸作为聚合单体、交联剂和功能基单体。
Acrylamide , crylic acid and N , N ′ - methylene bisacrylamide were chosen for preparing magnetic composite polymer microsphere with carboxyl groups in inverse emulsion . Acrylamide is monomer , crylic acid provide functional groups , and N , N ′ & methylene bisacrylamide is the cross-linking agent .
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本文探索了利用原子自由基聚合(ATRP)进行Fe3O4/SiO2/PMMA磁性高分子微球的合成。
Hence , in the dissertation atom transfer radical polymerization ( ATRP ) was adopted for preparation of Fe3O4 / SiO2 / PMMA magnetic polymer microspheres .
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以PEG/FeOx磁流体为原料,用乳液聚合法合成了粒径介于30nm~16μm的PS/FeOx磁性高分子微球。
With the original materials of PEG / FeOx ferrofluids , PS / FeOx magnetic polymer microspheres with diameters of 30 nm to 16 um were synthesized by emulsion polymerization .
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采用分散聚合法,以乙醇/水为介质,在Fe3O4磁流体存在下,通过苯乙烯与聚氧乙烯大分子单体共聚制备两亲磁性高分子微球。研究了聚合条件对微球粒径的影响。
Amphiphilic magnetic microspheres ranging from 5 μ m ~ 100 μ m were prepared through dispersion copolymerization of styrene and poly ( ethylene oxide ) macromonomer in the presence of Fe 3O 4 magnetic fluid in ethanol / water medium .
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在Fe3O4磁流体存在下,通过苯乙烯与聚氧乙烯大分子单体(MPEO)分散共聚制备两亲磁性高分子微球。
Amphiphilic magnetic polymer microspheres were synthesized by copolymerization of styrene with poly ( ethylene oxide ) macromonomer ( MPEO ) in the presence of Fe 3O 4 magnetic fluid in ethanol / water medium .
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本文在总结国内外有关磁性高分子微球研究成果的基础上,针对目前磁性高分子微球单分散性差、磁响应性弱的缺点,首次提出一种全新的制备磁性复合微球的DPE法。
On the basis of summarizing the research fruits of magnetic polymer microspheres worldwide , a novel method with the addition of 1,1-diphenylethlene ( DPE ) was firstly developed in this dissertation to prepare clean magnetic composite microspheres , which was one kind of living radical polymerization .
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含羧基的磁性高分子微球的制备和表征
Synthesis and Characterization of Magnetic Polymer Microspheres with Surface Carboxyl Groups
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铁氧磁流体的微波水热合成、表面修饰和磁性高分子微球的制备
Preparation of ferromagnetic particles by microwave irradiation and its surface modification
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铁磁性高分子&稳定自由基取代聚合物
Ferromagnetic polymer & polymer having stable radicals as side groups
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分散聚合法合成磁性高分子微球
Studies on Synthesis of Magnetic Polymer Microspheres by Dispersion Polymerization
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磁性高分子微球及其在食品工业中的应用
Magnetic Polymer Microsphere and Its Application in the Food Industry
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新型磁性高分子多孔复合微球的制备及在固定化酶上的应用研究
Preparation of Novel Porous Magnetic Microspheres and Application in Immobilized Enzyme Field
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纳米磁性高分子复合微球的制备及在水检测中的应用
Preparation of magnetic polymer nanocomposite and application in water determination
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核-壳结构磁性高分子的制备及其电磁学性能研究
Preparation and Electromagnetic Properties of Core / shell Magnetic Polymers
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表面含羧基的交联磁性高分子复合微球的合成
Synthesis of Cross-linked Magnetic Composite Microspheres Containing the Carboxyl Group
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磁性高分子微球共价结合中性蛋白酶
Immobilization of a Neutral Protease onto a Magnetic Polymer Microsphere by Covalent Coupling
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磁性高分子分为复合型和结构型。
The magnetic macromolecule materials can be classified into complex and structure type .
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磁性高分子微球的制备、保护及荧光化
Preparation and Protection of Magnetic Polymer Microspheres with Fluorescence
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磁性高分子材料的研究及应用进展
Magnetic Polymer Materials : Progress in Research and Application
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聚(苯乙烯-丙烯酸)磁性高分子微球的制备及性能
Synthesis and Property of P ( St / AA ) Magnetic Polymer Microspheres
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热敏性磁性高分子微球同蛋白质的相互作用
Interactions between thermosensitive magnetic polymer microspheres and proteins