它总是有一些光面和微磁性的不锈钢紧固盖螺钉。
It always has a number of smooth and micro-magnetic stainless steel fastening screw cap.
这个综合物是反磁性的,它仅微溶于水。
The complex is diamagnetic, it is only slightly soluble in water.
以磁性壳聚糖微球为载体固定漆酶。
The laccase was immobilized on the magnetic chitosan microspheres.
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.
研究化疗药物阿霉素在磁性纳米微球表面的吸脱附行为。
The adsorption behavior of chemotherapy doxorubicin on magnetic nanoparticles was studied.
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.
探索茶多酚磁性白蛋白微球的制备工艺,用作治疗肿瘤的新型动脉栓塞制剂。
To explore the method of preparing tea polyphenols magnetic albumin microspheres, which are used to a new arterial embolization formulation.
采用磁性壳聚糖微球吸附的方法吸附大豆乳清废水中蛋白质。
Adsorption effects of magnetic chitosan microsphere on protein of soy whey waste water were studied in this paper.
本文的目的是制备交联海藻酸钠磁性微球,并用于固定化胰蛋白酶。
The aim of this paper is to prepare magnetic particle of crosslinked Alginate Sodium and to apply it to immobilize Trypsin.
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.
磁性壳聚糖微球是一种有机—无机纳米复合粒子,具有磁性,在外加磁场作用下很容易进行分离和磁性导向。
Magnetic chitosan microsphere is a kind of organic-inorganic compound nanoparticle, which has magnetism and can be separated and oriented easily under applied magnetic field.
磁性热敏聚合物微球是一种新型功能材料,在生物工程和生物医学等领域具有广阔的应用前景。
As a new type of functional material, magnetic thermosensitive polymeric microspheres offer high potential application in various fields, particularly in bioengineering and biomedical fields.
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.
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.
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.
通过溶胀-吸附法用磁性壳聚糖微球固定化酵母细胞,考察了磁性壳聚糖微球固定化酵母细胞的效果。
Yeast cells were immobilized on magnetic chitosan microspheres by swelling-adsorption method and the effect of immobilizing yeast cells was investigated.
目的:改善磁性顺铂微球的药物突释和滞释,实现控释。
OBJECTIVE: To improve drug burst release and stagnant release of magnetic cisplatin microspheres (MCM).
目的:评价磁性可切削生物活性微晶玻璃对新骨生成的作用。
AIM: To evaluate the effect of magnetic machinable bioactive glass-ceramic on new bone generation.
目的:研究阿霉素磁性明胶微球的制备,探讨阿霉素磁性明胶微球的镇痛作用。
Objective: to study preparation and characteristics of adriamycin (ADM) magnetic gelatin microspheres, and to investigate its analgesic effect.
合成的磁性聚合物微胶乳透明而且能稳定数个月。
Finally, the prepared magnetic polymer particles are transparent and stable for several months.
进而采用磁流体存在下的分散聚合法制得了磁性聚合物微球。
Then the magnetic polymer microspheres were prepared by the dispersion polymerization with ferrofluid.
磁性微球作为一种新型功能材料,在磁性材料、生物工程等领域有着广泛的应用前景。
Magnetic microsphere, a new kind of functional material, was widely used in the fields of magnetic material, bioengineering etc.
方法:采用乳化-交联法制备阿霉素磁性明胶微球。
Methods: Adriamycin magnetic gelatin microspheres were prepared by emulsion-crosslinking.
磁性聚合物微球作为一种新型功能材料,在许多领域尤其是生物医药、生物工程等方面具有广阔的应用前景。
As a novel functional material, magnetic polymeric microspheres offer high potential application in various field, particularly in biomedical and bioengineering field.
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.
磁性药物微球的组成直接影响其药物释放速度。
The constitution of the microspheres affects the rate of the drug's release.
目的:改善磁性顺铂微球的药突释和滞释,实现控释。
Objective: Improving drug burst release and stagnant release of magnetic cisplatin microspheres (MCM) and achieving controlled release.
实验结果表明,纤维素磁性微球作为性能优良的新型磁性载体,更适于目的蛋白的免疫磁性分离。
The result suggested that MCMS were much more suitable for purification of aim proteins than other microspheres and showed an extensive application foreground for immunomagnetic separation.
结果:制备的阿霉素磁性明胶微球最佳投料比为1:15,磁吸附率为100%。
Results: The optimal ratio of magnetic gelatin microspheres carried adriamycin was 1:15. The magneto-adsorption rate of the microspheres was 100%.
结果:制备的阿霉素磁性明胶微球最佳投料比为1:15,磁吸附率为100%。
Results: The optimal ratio of magnetic gelatin microspheres carried adriamycin was 1:15. The magneto-adsorption rate of the microspheres was 100%.
应用推荐