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核壳纳米复合粒子的结构设计、制备与表面反应功能化
引用本文:曾重,郭朝霞,于建. 核壳纳米复合粒子的结构设计、制备与表面反应功能化[J]. 石油化工, 2006, 35(2): 103-112
作者姓名:曾重  郭朝霞  于建
作者单位:清华大学,化工系高分子研究所,北京,100084
摘    要:以乳液聚合为主要手段,研究了制备高分子基纳米复合材料的高效而又具有较好普适性的方法,实现了聚合物对A l2O3,CaCO3,ZnO,T iO2无机纳米粒子的包覆。并通过引入交联结构、壳层使用亲水共聚物以及界面引入化学键等方式,克服了一般乳液聚合中产物结构严重依赖于核壳组分亲水性的缺点,大大提高了核壳纳米复合粒子结构设计的自由度。在得到各种纳米复合粒子乳液的基础上,对纳米复合粒子实现了表面反应功能化,赋予了产物高产率和高接枝效率、表面官能团种类及含量和粒子形态结构高度可控等特征。

关 键 词:核壳结构  纳米复合粒子  乳液聚合  表面功能化  结构设计
文章编号:1000-8144(2006)02-0103-11
修稿时间:2005-10-10

Structure Design, Preparation and Functionallization of Core-Shell Nanoparticles
Zeng Zhong,Guo Zhaoxia,Yu Jian. Structure Design, Preparation and Functionallization of Core-Shell Nanoparticles[J]. Petrochemical Technology, 2006, 35(2): 103-112
Authors:Zeng Zhong  Guo Zhaoxia  Yu Jian
Abstract:Polymer/inorganic and polymer/polymer core-shell nanoparticles have been receiving considerable attention because they are basic elements of polymer-based nanomaterials.Based on emulsion polymerization,two general methods were established for preparing each of the above-mentioned two types of nano-particles.It was noteworthy that encapsulation of nanosize Al_2O_3,CaCO_3,ZnO and TiO_2 by polymers,which were previously thought difficult to achieve,were successfully implemented.Also,structure of product in emulsion polymerization normally highly depended upon hydrophilicity of core and shell polymers.This disadvantage was overcome by means of crosslinking the polymers,use of hydrophilic copolymers and formation of covalent bonds at interface.Therefore spectrum of nanoparticle structure design was largely broadened.Based on emulsion of above-prepared multiple types of nanoparticles,a general method for surface functionallization was proposed.Functionalized nanoparticles were obtained in high yield and binding efficiency.The type and content of reactive groups,and structure and morphology of the nanoparticles could be adjusted in a highly controllable way.
Keywords:core-shell structure  nanoparticle  emulsion polymerization  surface functionalization  structure design
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