磁性高分子

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

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 .

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

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

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 .

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 .

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

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

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

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 .

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 .

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 .

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 .

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 .

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 .

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

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

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

分散聚合法合成磁性高分子微球

Studies on Synthesis of Magnetic Polymer Microspheres by Dispersion Polymerization

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

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

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

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

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

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

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 .

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

磁性高分子材料的研究及应用进展

Magnetic Polymer Materials : Progress in Research and Application

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

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