No diffusion of BSA (v) into the microcapsules was observed.
牛血清白蛋白(V)不能扩散进入微胶囊。
The microcapsules will stop because they can't move onto that surface.
Balazs 告诉新科学家们“微聚体因为不能在表面移动而停下来”。
Results the blood vessels of the tumor were almost embolized by the microcapsules.
结果经股动脉给药微囊栓塞后,肿瘤血供明显减少。
When the microcapsules reach this point, the effect that allows them to roll along is removed.
当微聚体到达这一处时,使它们滚动的作用将消失。
Objective: to prepare the microcapsules of dirithromycin and to study its release rate in vitro.
目的:制备地红霉素微囊并考察其体外释放度。
The degree of protection is generally calculated as the rate of its loss from the microcapsules.
保护程度通常按其在微胶囊中的耗损率来计算的。
The surface morphology, diameter, melting point of the microcapsules were investigated by using FTIR, SEM, DSC.
利用激光粒度分布仪、SEM、DSC分别研究微胶囊的粒径分布、表面形貌以及热性能。
Conclusion: the microcapsules prepared can mask the bitter taste of andrographolide, and quickly release in stomach.
结论:该方法所制备微囊不仅可以有效掩盖穿心莲内酯的苦味,而且在胃液中能够快速释放。
In order to solve these problems, the microcapsules of menthol were prepared by phase separation-coacervation method.
为了解决这个问题,进行了采用相分离-凝聚法对制备薄荷醇微胶囊研究。
Small fractures in the composites move through the material and rupture the microcapsules, releasing the healing agent.
复合体系中的小裂纹穿过材料并使微包覆物破坏,从而释放出愈合助剂。
The invention also relates to a process for making the microcapsules and liquid detergents comprising said microcapsules.
本发明还涉及微胶囊和包含所述微胶囊的液体洗涤剂的一种制备方法。
The microcapsules further preferably comprise one or more of methylcellulose, chlorophyllin and at least one vegetable oil.
这种微囊进一步优选包含甲基纤维素、叶绿酸的一种或几种和至少一种植物油。
The properties of the wall, the solvent residue and particle size can influence the damp proof effect of the microcapsules.
造成这种影响是由于成囊过程中囊壁致密程度、微囊中溶剂残留以及微囊粒径不同而造成的。
What is killing the bacteria is clear: it is the singlet oxygen. What is luring them into the microcapsules, though, is not well understood.
尽管单线态氧杀死细菌这个事实是清楚的,但是是什么将细菌引入微型胶囊并不清楚。
With the studies of release curves and SEM photos of the microcapsules, it was shown that two kinds of release profile might exist at least.
溶出曲线和微囊形貌结构照片研究表明,可能至少存在两种不同的溶出释放通道。
This article deals with the study on preparation of the microcapsules of norfloxacin with ethyl cellulose walled by the solvent nonsolvent method.
研制溶剂-非溶剂法制备诺氟沙星微囊以乙基纤维素为囊材的最适溶剂-非溶剂系统的组成。
The measurement of coating within the microcapsules proves the heat insulation property, and the microcapsules can be used as heat insulation additive.
涂膜隔热性能测试结果表明,该种微胶囊具有明显吸热性能,可作为隔热添加剂使用。
The paper investigated the effects of the system modifier, stirring velocity and dosage of wall material on the sizes distribution and morphology of the microcapsules.
考察了系统调节剂、搅拌、壁材用量对微胶囊的粒径分布及其形貌的影响。
Theoretically, the microcapsules could be programmed to "flip" rapidly between dark and white states, providing, for example, a sense of motion in a diagram showing how a car works.
成问题的不仅仅是静态字母显示。从理论上讲,这些显微小囊可按照程序编排,使其黑白状态快速“跳动”,产生一种象汽车工作原理图解那样的动感。
Method: the orthogonal experimental design adopts the standard of drug encapsulation and optimizes the preparation procedure of the microcapsules by the complex coacervation method.
方法:以微囊的药物包封率为制备工艺优化指标,利用复凝聚法,通过正交实验得出微囊的最佳制备工艺条件。
Methods the orthogonal experimental design adopting the standard of drug encapsulation was applied to optimize the preparation procedure of the microcapsules by the complex coacervation method.
方法以微囊的药物包封率为制备工艺优化指标,利用复凝聚法,通过正交实验得出微囊的最佳制备工艺条件。
The diameter distribution, surface morphology, thermal properties and structure of the microcapsules were investigated by means of laser particle size analyzer, SEM, DSC and FT-IR, respectively.
利用激光粒径分布仪、扫描电镜、差示扫描量热仪(DSC)和傅立叶转换红外光谱仪分别研究了微胶囊的粒径分布、表面形态、热性能和壳结构。
The abamectin microcapsules were prepared by in-situ polymerization process in this work, with melamine-formaldehyde resin and urea-formaldehyde resin as wall materials respectively.
采用原位聚合法,分别使用脲醛树脂和蜜胺树脂两种囊壁材料对生物农药-阿维菌素进行了微胶囊包覆。
The preparation of drug microcapsules by the solvent evaporation method is reviewed, and the technical principles of solvent evaporation are introduced.
介绍了溶剂蒸发法制备微胶囊的原理,分析了溶剂蒸发法制备药物微胶囊的工艺的研究现状。
Aim: to optimize the preparation of the ginger oleoresin alginate-chitosan microcapsules and to study its stability.
目的:优化姜油树脂海藻酸钠-壳聚糖微囊的制备工艺,并对其稳定性进行考察。
The research was to study the preparation conditions of eugenol microcapsules and their quality evaluation.
研究丁香酚微囊的制备工艺,并对所制备的微囊质量进行评价。
The research was to study the preparation conditions of eugenol microcapsules and their quality evaluation.
研究丁香酚微囊的制备工艺,并对所制备的微囊质量进行评价。
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