这将为血红蛋白纳米微囊作为人造红细胞提供一种有效的制备手段。
That would hope to be an efficient method to prepare hemoglobin nanoparticles as artificial red blood cells.
目的研究丙酸倍氯米松(BDP)纳米微囊的肺内分布及清除特征,探讨BDP纳米微囊的肺沉积及缓释作用。
Objective To study the characteristics of pulmonary distribution and clearance of beclomethasone dipropionate(BDP) nano-microcapsule and its lung deposition and slow-releasing effects.
通过透射电镜、动态激光光散射仪和紫外分光光度计对其进行了分析检测,得到了香气稳定、粒经分布较好的纳米微囊香精产品。
The optimal technical parameters were concluded and the products were tested by TEM, DLS and UV, it showed a good result of stable odor and particle size distribution.
采用可生物降解的高分子材料制备的血红蛋白纳米微囊是新一代的血液代用品,具有与天然红细胞相似的性质,是一种很有潜力的氧载体。
The biodegradable nanocapsules containing hemoglobin (Hb) have the similar characteristics to natural red blood cells, therefore as the potential to become a new form of oxygen carrier.
本文采用离子凝胶化法以及喷雾干燥技术,以壳聚糖和三聚磷酸钠为载体,制备出装载牛肉香精的壳聚糖-三聚磷酸钠纳米微囊并确定了其最佳制备工艺参数。
On the base of using chitosan and tripolyphosphate as the carriers, the preparation of beef flavor - loaded nanocapsules was studied by adopting ionic gelation method and spray - drying technology.
目的确定有效制备及鉴定微囊包被血红蛋白和纳米级人工红细胞的方法。
Objective to determine the effective method to prepare and test hemoglobin vesicles and artificial red blood cells with diameters in nm.
主要包括天然材料、改性材料的吸附,生物吸附,硅微囊技术和纳米技术等。
The new methods mainly contain the adsorption of natural materials, modification materials, humic acids, biosorption, quod of silicon micro encapsulization and nanotechnology.
主要包括天然材料、改性材料的吸附,生物吸附,硅微囊技术和纳米技术等。
The new methods mainly contain the adsorption of natural materials, modification materials, humic acids, biosorption, quod of silicon micro encapsulization and nanotechnology.
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