摘要
提出了以具有纳米尺寸孔径及孔壁厚度的MCM 48作为无机基体、以无机 有机原位自组装的方法形成纳米网络粒子 .研究结果表明 ,在一定实验条件下 ,有机相可进入无机相的三维孔道自组装形成立方有序结构的纳米网络复合粒子 .通过研究纳米网络粒子在极性介质和非极性介质中的分散发现 。
Inorganic/organic nano-composite materials exhibit enhanced performance due to the nano-size effect of the inorganic phase dispersed in the organic matrix. The conventional way to prepare nano-composite materials is to mix nano-dimensional inorganic particles into a polymer matrix. The inorganic particles, however, are usually nonhomogeneously dispersed because on energy considerations the aggregation of the inorganic particles is favored. In addition, the distinct difference in surface characters between the discontinuous inorganic phase and continuous organic matrix has an adverse effect on the dispersion of the former. The design of a novel inorganic-organic nanocomposite structure is thus put forward in this work. By taking advantage of the nano-sized pore diameter and wall thickness, MCM-48 is proposed as the inorganic component of the novel inorganic-organic nano-composite structure, and the nano-composite structure is proposed to be formed through ih-situ self-assembly of inorganic silica precursors and organic template. The effects of the conditions including the concentration of alkali solution, pre-hydrolysis step, organic/inorganic molar ratio, pre-assembly time and pre-assembly temperature on the self-assembly have been investigated. The proposed nano-composite structure can be formed with CTABr as the organic template and TEOS as the inorganic precursors. The novel aspect of this nano-composite structure is that the organic phase in the nano-sized pores is isolated by the inorganic phase. The organic template extends along the channels to the openings and is beneficial to the dispersivity of nano-composite particles in both polar and non-polar medium such as water and toluene. The content of the organic template can be varied to optimise the properties of the nano-composites. The inorganic-organic nano-composite particles are expected to be favorable to the interaction between the nano-composite structure and a bulk polymer matrix.
出处
《高分子学报》
SCIE
CAS
CSCD
北大核心
2001年第5期639-644,共6页
Acta Polymerica Sinica
基金
国家自然科学基金资助项目 (基金号 5 99730 0 4)
