• Journal of the Korean Magnetics Society
• /
• v.16 no.6
• /
• pp.293-299
• /
• 2006

Magnetic nanoparticles were prepared by thermal decomposition and adsorbed with lecithin by applying ultrasonic. The size and saturation magnetization of magnetic nanoparticles were observed with different lecithin concentration, and the maximum tolerated dose (HTD) and toxicity of magnetic fluid was investigated through a biological test. The thickness of lecithin-adsorption layer increased non-linearly with increasing amounts of added lecithin, and the desirable adsorption amount was observed in the lecithin concentration of 20%(w/v). The dispersibility and magnetic properties of lecithin-adsorbed magnetic nanoparticles were most excellent when the ultrasonic exposure time was 1.5h. Also, the maximum tolerated concentration with best cell viability was $32{\mu}g/ml$ in vitro test, and lecithin-adsorbed magnetic fluids improved the biocompatibility by 1.2 times compared with bare magnetite fluids in vivo.

• Journal of the Korean Chemical Society
• /
• v.36 no.4
• /
• pp.504-510
• /
• 1992

Absorption properties of methylene blue (MB) in L-${\alpha}$-lecithin vesicle, bacteriorhodopsin and incorporated bacteriorhodopsin (InBR) vesicle systems at 20∼$60^{\circ}C$ has been studied by adsorption spectroscopy. The equilibrium of MB between monomer and dimer in lecithin vesicles has been existed at low concentration of MB, but oligomer has been formed in vesicle at higher concentration of MB. In most cases, the MB cluster was redistributed to monomer at the concentration of lecithin vesicles. Adding BR to constanr concentration of MB deceased the adsorption ratio (${\alpha}/{\beta}$) of MB, and MB was formed oligomeric aggregate. Absorption ratio (${\alpha}/{\beta}$) of MB was increased during phase transition of InBR vesicles, but independent of phase transition of lecithin vesicles. It suggested that aggregate of MB on the surfaces of InBR vesicles were redistributed to monomer under the influence of lipid phase transition.