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基于结构差异的选择性刻蚀策略制备中空/ rattled 型介孔纳米结构。

Hollow/rattle-type mesoporous nanostructures by a structural difference-based selective etching strategy.

机构信息

State Key Laboratory of High Performance Ceramic and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Science, Shanghai 200050, China.

出版信息

ACS Nano. 2010 Jan 26;4(1):529-39. doi: 10.1021/nn901398j.

Abstract

A novel "structural difference-based selective etching" strategy has been developed to fabricate hollow/rattle-type mesoporous nanostructures, which was achieved by making use of the structural differences, rather than traditional compositional differences, between the core and the shell of a silica core/mesoporous silica shell structure to create hollow interiors. Highly dispersed hollow mesoporous silica spheres with controllable particle/pore sizes could be synthesized by this method, which show high loading capacity (1222 mg/g) for anticancer drug (doxorubicin). Hemolyticity and cytotoxicity assays of hollow mesoporous silica spheres were conducted, and the synthesized hollow mesoporous silica spheres with large pores show ultrafast immobilization of protein-based biomolecules (hemoglobin). On the basis of this strategy, different kinds of heterogeneous rattle-type nanostructures with inorganic nanocrystals, such as Au, Fe(2)O(3), and Fe(3)O(4) nanoparticles, as the core and mesoporous silica as the shell were also prepared. This strategy could be extended as a general approach to synthesize various hollow/rattle-type nanostructures by creating adequate structural differences between cores and shells in core/shell structures in nanoscale.

摘要

一种新型的“基于结构差异的选择性刻蚀”策略被开发用于制备中空/类响铃型介孔纳米结构,该策略利用了二氧化硅核/介孔二氧化硅壳结构中核和壳之间的结构差异,而不是传统的组成差异,来创造中空内部。通过这种方法可以合成具有可控颗粒/孔径的高度分散的中空介孔硅球,其对抗癌药物(阿霉素)的负载量高达 1222mg/g。进行了中空介孔硅球的溶血和细胞毒性试验,合成的大孔中空介孔硅球对基于蛋白质的生物分子(血红蛋白)具有超快的固定化作用。在此策略的基础上,还制备了不同种类的具有无机纳米晶体(如 Au、Fe2O3 和 Fe3O4 纳米颗粒)作为核、介孔二氧化硅作为壳的异质类响铃型纳米结构。这种策略可以扩展为一种通用方法,通过在纳米尺度的核壳结构中创造足够的核壳之间的结构差异来合成各种中空/类响铃型纳米结构。

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