其制备方法主要包括:制备单分散的磁性微粒;
The preparation method mainly comprises the following steps: preparing monodisperse magnetic fine particles;
方法以葡聚糖为载体,采用氧化法制备靶向磁性微粒。
Methods Regarding dextran as carriers, the target magnetite particle was prepared by the periodate procedure.
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.
本研究旨在开发新型磁性微粒,并将其应用于免疫检测及核酸纯化等领域。
This thesis is focused on preparation of two kinds of magnetic particle and their application for immunoassay and purification of mRNA.
除非能有效排除铁磁性微粒,否则本产品应避免输送含有铁磁性物料的液体。
Unlesss ferrous magnetic particles can be effectively removed, conveying liquid containing ferrous magnetic material with this product should be avoided.
在高密度数据存储应用中,所述强磁材料区含有高饱和磁化强度的纳米磁性微粒。
In the application of high density data storage, the strong magnetic material section contains nanometer magnetic particulate with high saturation magnetization.
研究了磁性微粒浓度、外加磁场对水基磁性流体在水平加热棒加热情况下的沸腾传热影响。
The effect of magnetite concentration and applied magnetic field on pool boiling heat transfer of a water-based magnetic fluid was investigated on a horizontal heater.
结论功能化磁性微粒表面巯基的修饰及定量测定,为其在生物及医学领域的应用奠定了基础。
Conclusion the modification and the quantitative methods for-SH groups on magnetic particle surface provide potential application for biological and medical areas in the near future.
目的:制备出磁响应性强、粒径小且分布均匀的纳米磁性微粒,为磁共振造影提供一种新型材料。
Objective: to improve the method of synthesizing magnetic particles, which have good magnetic property and small size, to be used in contrast agent for abdomen MRI.
磁流体是一种新型的磁材料,它是一种含有均匀分布的铁磁性微粒的稳定的胶状悬浮液,同时仍具有液体的流动性。
Magnetic fluid is a new magnetic material which is stable colloidal suspensions of submicroscopic susceptibilities, yet is fluid-like in behavior.
在传统的放射免疫分析的基础上,以磁性微粒子为二抗分离剂和固相一抗为结合反应剂,建立了两种快速、超灵敏、简便的血清及其它样品中雌三醇含量的分析方法。
In the present work, using the magnetic microparticle, two ultra-sensitive and simple methods based on the traditional radio-immunoassay for the determination of estriol (E3) in serum were developed.
此外,由于制作这微粒的氧化铁是带有磁性的,就可以通过磁场来旋转其方向。
Moreover, since the form of iron oxide used to make the droplets is magnetic, a magnetic field can be used to rotate them.
为了理解这三种想法是如何联系到一起的,可以先设想一个由非磁性材料制造的孤立的纳米微粒,其直径为光波波长的若干分之一。
To understand how these three ideas work together, it helps first to think about a lone nanoparticle made of some nonmagnetic material, its diameter a small fraction of an optical wavelength.
结果表明:合成的纳米复合微粒分布均匀,具有磁性和吸附性能,在磁靶向治疗中具有潜在的应用价值。
The results indicate that the resultant products with uniform size exhibit magnetism and adsorption properties, so they have potential value of applications in magnetic drug targeting.
利用磁性分离的作用原理,对微粒分析仪的性能和使用效果进行了实验室评定。
The performance and measuring effects of wear debris analyser are evaluated based on the principles of magnetic separation at laboratory.
目的制备磁响应性强、粒径小且分布均匀的磁性纳米微粒,为消化道恶性肿瘤的磁控靶向治疗提供一种新型载体。
Objective To improve the method of synthesizing magnetic particles, which have good magnetic property and small size, to be used in tumor target therapy.
磁性复合微粒具有优良的分离和富集特性,以磁性复合微粒为基础,开发相关试剂盒和仪器是我国在该领域的研发目标,以尽快填补国内空白。
Magnetic particles have good properties of separation and enrichment for biomolecules, so our attentions should concentrated in developing kits and apparatus in our country.
目的:观察血管内磁敏性造影剂超顺磁性氧化铁微粒(SPIO2)显示急性心肌梗塞灶的可能性和优越性。
Objective: To evaluate the feasibility and advantage of MRI with the intravascular susceptibility contrast agent, superparamagnetic iron oxide (SPIO2), in demonstrating acute myocardial infarction.
概述了铁氧铁磁性纳米微粒的一些基本知识,并就纳米颗粒型磁性材料的应用作了介绍。
The knowledges about magnetic ferrite nanoparticles and the USES of magnetic ferrite nanoparticles in technology are introduced.
在体外溶出实验中对阿霉素磁性毫微粒体外释放性能的影响主要考察了三个因素:毫微粒平均粒径大小、毫微粒的载药量以及交联剂含量。
In the drug release kinetics investigation, influences of the content of drug, the microsphere size and the content of crossing-linker on the drug-release were studied.
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.
该文综述了磁性纳米微粒的现状及其在磁性靶向药物传递中作为药物载体在肝癌治疗中的应用研究进展。
This article summarizes the current state of nano drug carrier with magnetic targeting and the progress as a targeting carrier in the treatment of hepatocellular carcinoma.
该文综述了磁性纳米微粒的现状及其在磁性靶向药物传递中作为药物载体在肝癌治疗中的应用研究进展。
This article summarizes the current state of nano drug carrier with magnetic targeting and the progress as a targeting carrier in the treatment of hepatocellular carcinoma.
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