最后展望了磁性高分子微球的发展前景。
And the prospects of magnetic polymer microspheres also evaluated.
综述了功能化高分子微球的合成方法和应用领域。
Preparation methods and applications of functionalized polymer microspheres were reviewed.
本发明公开了一种水分散磁性高分子微球及其制备方法。
The invention discloses water dispersible magnetic polymer microsphere and the preparation method.
磁性高分子微球是近二十年来研究的一类新型功能材料。
Magnetic macromolecular microspheres are a novel functional material that has been developed in the past twenty years.
本文综述了近几年来高分子微球在电化学领域应用的研究进展。
In this paper, the applications of redox-active polymer microspheres in electrochemistry are reviewed.
结论两亲磁性高分子微球可作为分离人血清白蛋白的有效手段。
CONCLUSION Amphiphilic magnetic polymer microspheres were an effective means for the separation of HSA.
无机磁性微粒的性质是影响磁性高分子微球磁响应性的主要因素。
The properties of inorganic magnetic particles affect the magnetism of magnetic composite polymer microsphere.
目的:制备一种普通光学显微镜下可见的细胞标记用大粒径彩色高分子微球。
Objective: To prepare a kind of large colored microspheres which can be observed under optical microscope and used for cell labelling.
本文综述了高分子微球在医学工程中的应用,其中着重介绍了磁性高分子微球。
This article summarized the high polymer microballoons in the medical engineering application, introduced the magnetic high polymer microballoons emphatically.
如果再添加磁性材料或一些功能基团就能获得磁微球或荧光微球等高分子微球。
If increases the magnetic material either some function groups and bases again can obtain magnetism microballoons or the fluorescence microballoons contour member microballoons.
按照上述的本发明方法,就可以用少量的水在短时间内简便地制造所需的含药物高分子微球。
According to the present invention, the desired polymeric microspheres loaded with drugs can be simply produced with a small amount of water in a short period of time.
针对上述情况,本论文较为系统地开展了表面含羧基和氨基的磁性高分子微球的制备及表征研究。
For the above problems, the preparation and characterization of magnetic composite polymer microsphere with carboxyl groups and amido groups are studied in this thesis.
磁性高分子微球一方面具有与生物活性物质反应的特殊功能基团,可以作为生物活性物质的载体;
In one hand, the magnetic polymer microspheres have special functional group which can react with biological active matter and are used as supporter on biological active matter.
方法:以苯乙烯为单体,二乙烯苯为交联剂,采用二步溶胀法合成单分散、大粒径的聚苯乙烯高分子微球。
Methods: Prepared the monodisperse and big diameter crosslinked polystyrene microspheres with Two Step Swelling Method, Using diVinylbenzene as the crosslink agent.
因此,核壳高分子微球作为一种新型材料,具有重要的应用价值和前景,已成为近年来高分子领域的研究热点。
Therefore, the core-shell polymer microspheres took one kind of new material, it has the important application value and the prospect, has become the recent years polymer domain the research hot spot.
取所得的混合物的下层红色沉淀,分别用甲苯、水和乙醇反复清洗至少1遍,即得到最后目标产物有机高分子微球。
Take underlayer redness deposition of hybrid, respectively use toluene, water and ethanol to rinse at least 1 time, then obtain final product product organic polymer microsphere.
拟从生物高分子磁性微球的制备、结构、性能和应用等几个方面综述近年来国内外有关磁性高分子微球的研究状况。
In this paper recent research on magnetic microspheres is reviewed from several aspects, including their preparation methods, structure, properties and applications.
概述了磁性聚合物的研究与应用近况,重点讨论了磁性高分子微球的分类、制备方法及其应用,并对磁性聚合物的发展趋势进行了展望。
The study and application of magnetic polymer materials have been reviewed. Particularly, the classification, preparation methods and research trend of magnetic polymer microspheres are discussed.
在此基础上,概述了磁性高分子微球在磁性塑料、固定化酶、细胞分离和靶向药物等领域的应用情况,并对磁性高分子微球的未来研究方向进行了展望。
The applications of magnetic polymer microspheres in magnetic plastics, enzyme immobilization, cell separation and target drug etc. were also summarized, and the prospects of this field were analyzed.
结论表面功能化高分子磁性微球能与生物活性物质结合,在生物学和医学领域有广泛的应用前景。
Conclusions the sur - face functional magnetic polymer microspheres can be bound with active bio - substance, and have a wide application prospect in the fields of biology and medicine.
相比较而言,粒径较大的高分子中空微球具有更好的应用效果。
In comparison, hollow polymer microsphere with big size has a better filling effect.
添加高分子中空微球可以降低密封剂密度,同时提升其力学性能。
The addition of hollow polymer microsphere can reduce the density of the sealant, as well as improve mechanical properties.
荧光微球是一种新型功能高分子材料,广泛应用于生物医学工程中。
Fluorescent microsphere is a new kind of functional polymer material which is mainly in biomedical engineering area.
本论文主要对基于高分子水凝胶微球为模板制备有机—无机复合材料进行了研究。
This dissertation mainly studies on the preparation of polymeric-inorganic composite microspheres of core-shell structure based on template method of polymeric hydrogel microspheres.
不同的纳米磁性高分子复合微球,因其结构不同,制备方法也各不相同。
Because of different magnetic polymer nanocomposite has different structure, so the preparation methods are also different.
本发明提供了一种带有不同官能团的窄粒径分布磁性高分子纳米微球 的制备方法和装置。
The invention provides the apparatus and method for macromolecular magnetic nano microsphere of narrow grain-size distribution with different function group.
采用玻璃微球吸附工艺,与挥发性物质及非水溶性高分子物质一起混合并干燥。
It USES the glass microballoons adsorption technology to mix them with the volatile matter and non-aqueous macromolecular material together and drying it.
本发明涉及了一类新型兼具光导性、磁性和高分子微粒子特性的磁性微球及制备方法。
The present invention relates to a magnetic microsphere with photoconductivity, magnetic property and macromolecular fine particle characteristics and its preparation method.
方法采用固体分散载体和阻滞性高分子材料,使用固体分散与球晶制粒相结合的技术制备水飞蓟宾缓释微球。
Methods Sustained-release silybin microspheres were prepared by the spherical crystallization technique with solid-dispersing and release-retarding polymers.
表面含有温敏性高分子刷的聚苯乙烯微球直径随着紫外光反应时间的延长而增加。
The diameter of PS particles with thermo-sensitive brushes increased with increasing of reaction time.
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