应用化学 ›› 2011, Vol. 28 ›› Issue (06): 678-682.DOI: 10.3724/SP.J.1095.2011.00458

• 研究论文 • 上一篇    下一篇

海藻酸改性的中空SiO2微球的简易制备及应用

董丽娟,姚奇志,马芳,金谷*   

  1. (中国科学技术大学化学系 合肥 230026)
  • 收稿日期:2010-08-05 修回日期:2010-11-26 出版日期:2011-06-10 发布日期:2011-06-10
  • 通讯作者: 金谷,副教授; Tel:0551-3601596; Fax:0551-3601592; E-mail:gjin@ustc.edu.cn; 研究方向:生物材料制备和应用
  • 作者简介:金谷,副教授;研究方向:生物材料制备和应用;E-mail: gjin@ustc.edu.cn; Tel: 0551-3601596; Fax: 0551-3601592
  • 基金资助:
    国家自然科学基金(29405038)资助项目

Facile Preparation and Application of Silica-Alginate Microsphere

DONG Lijuan, YAO Qizhi, MA Fang, JIN Gu*   

  1. (Department of Chemistry,University of Science and Technology of China,Hefei 230026)
  • Received:2010-08-05 Revised:2010-11-26 Published:2011-06-10 Online:2011-06-10
  • Contact: JIN Gu

摘要:

以CaCO3为模板,正硅酸四乙酯(TEOS)为硅源,用比较简单的方法制备了中空SiO2;然后将海藻酸钠嫁接在氨基化的中空SiO2表面;再利用海藻酸盐与钙离子的作用,在中空SiO2表面形成一个凝胶化层,制得海藻酸盐凝胶化的中空SiO2微球,粒径为1~2 μm。 采用FTIR、XRD、SEM、TEM和TGA等测试技术对微球进行表征。 此微球成功地用于柔红霉素的载负和缓释,最大载负率和载药量分别为55.6%和27.8%;缓释结果表明,海藻酸盐凝胶化层的存在,能更有效控制柔红霉素缓慢的释放,这种凝胶化载体对药效强、毒性较大的药物有潜在的临床应用前景。

关键词: CaCO3, 中空SiO2, 海藻酸盐, 微球, 柔红霉素

Abstract:

Hollow inorganic particles have attracted great interest because of their unique physicochemical properties. In this study, a simple and effective method for synthesizing silica hollow spheres is presented. The synthesis utilizes CaCO3 as spherical templates for the silica growth; tetraethyl orthosilicate(TEOS) is added to the template as a precursor for the silica formation. After CaCO3 spherical cores were removed by adding diluted hydrochloric acid, hollow silica spheres with smooth surface and uniform shell thickness around 60~70 nm were obtained. The core shell structure of CaCO3 sphere-silica composites and the hollow structure of silica spheres were characterized by FESEM, TEM, TGA, XRD and FTIR. The results indicated that the silica was coated on the surface of CaCO3 spheres. The inner diameter of the hollow silica spheres with amorphous shell was about 1~2 μm. Amine functional silica hollow spheres were prepared via the hydrolysis of APTMs, then alginate was firstly grafted onto the surface of amine silica then the alginate coating was immobilized by gelling Ca2+ ions and alginate, which allows the formation of alginate-modified hollow SiO2. The size of microsphere is about 1~2 μm. Daunorubicin as a probing drug was loaded into the carrier, the maximum percent of envelop and load were 55.6% and 27.8% respectively.

Key words: CaCO3, hollow SiO2, alginate, microsphere, daunorubicin

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