水中基于富勒烯的表面活性剂的球形双层囊泡：激光光散射研究

Spherical bilayer vesicles of fullerene-based surfactants in water: a laser light scattering study.

作者信息

Zhou S, Burger C, Chu B, Sawamura M, Nagahama N, Toganoh M, Hackler U E, Isobe H, Nakamura E

机构信息

Department of Chemistry, State University of New York, Stony Brook, NY 11794, USA.

出版信息

Science. 2001 Mar 9;291(5510):1944-7. doi: 10.1126/science.291.5510.1944.

DOI:10.1126/science.291.5510.1944

PMID:11239150

Abstract

The low solubility of fullerenes in aqueous solution limits their applications in biology. By appropriate substitution, the fullerenes can be transformed into stabilized anions that are water soluble and can form large aggregated structures. A laser light scattering study of the association behavior of the potassium salt of pentaphenyl fullerene (Ph5C60K) in water revealed that the hydrocarbon anions Ph5C60- associate into bilayers, forming stable spherical vesicles with an average hydrodynamic radius and a radius of gyration of about 17 nanometers at a very low critical aggregation concentration of less than 10(-7) moles per liter. The average aggregation number of associated particles in these large spherical vesicles is about 1.2 x 10(4).

摘要

富勒烯在水溶液中的低溶解度限制了它们在生物学中的应用。通过适当的取代，富勒烯可以转化为稳定的阴离子，这些阴离子可溶于水并能形成大的聚集结构。对五苯基富勒烯钾盐（Ph5C60K）在水中缔合行为的激光光散射研究表明，烃基阴离子Ph5C60-缔合形成双层结构，在极低的临界聚集浓度（小于10^(-7)摩尔/升）下形成平均流体动力学半径和回转半径约为17纳米的稳定球形囊泡。这些大球形囊泡中缔合颗粒的平均聚集数约为1.2×10^4。

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水中基于富勒烯的表面活性剂的球形双层囊泡：激光光散射研究

Spherical bilayer vesicles of fullerene-based surfactants in water: a laser light scattering study.

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