超顺磁性磁铁矿纳米粒子用乳糖酸(LA)进行了表面修饰,以提高其细胞内摄取和靶向肝细胞的能力。
Superparamagnetic magnetite nanoparticles were surface-modified with lactobionic acid (LA) to improve their intracellular uptake and ability to target hepatocytes.
磁性纳米粒子具有特殊的顺磁性和体积效应,近年来,磁性纳米粒子的合成和生物医学应用已引起了研究工作者的广泛兴趣。
For the special paramagnetism and bulk effect, the compounding of magnetic nano-particles and their application in biomedicine has drawn many research fellows attention.
我们相信通过磁性纳米粒子的表面功能化和改性引入更多功能的方式将受到越来越多的关注。
We believe that the surface functionalization and modification of magnetic nanoparticles to introduce additional functionality will gain more and more attention.
遗憾的是,在所有的模拟和理论研究中都未有磁性纳米粒子与高分子刷的共混体系相关的研究开展。
Moreover, among all the simulations and theoretical studies to date, very few studies on magnetic nanoparticle-loaded brushes are discussed.
金属纳米粒子由于其小的尺寸和大的比表面积等特点,使其具有独特的热性能、电性能、磁性能和光性能,以及很强的团聚趋势。
Metal nanoparticles exhibit unique thermal, electronic, magnetic and optical properties because of the small sizes, large specific surface characteristics and the aggregative trend.
以六水三氯化铁、四水二氯化铁和氨水为原料,在超声波辅助下,水热法制备了磁性四氧化三铁纳米粒子。
The nano-sized magnetic Fe3O4 particles was synthesized by hydro-thermal method with the help of ultrasonic wave by reacting FeCl3·6H2O with FeCl2·4H2O and NH3·H2O.
以六水三氯化铁、四水二氯化铁和氨水为原料,在超声波辅助下,水热法制备了磁性四氧化三铁纳米粒子。
The nano-sized magnetic Fe3O4 particles was synthesized by hydro-thermal method with the help of ultrasonic wave by reacting FeCl3·6H2O with FeCl2·4H2O and NH3·H2O.
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