Department of Chemical Engineering, The City College of New York, New York, NY 10031, United States.
J Colloid Interface Sci. 2011 Feb 15;354(2):887-90. doi: 10.1016/j.jcis.2010.11.013. Epub 2010 Nov 13.
Combining metal nanoparticles and dielectrics (e.g. silica) to produce composite materials with high dielectric constant is motivated by application in energy storage. Control over dielectric properties and their uniformity throughout the composite material is best accomplished if the composite is comprised of metal core - dielectric shell structured nanoparticles with tunable dimensions. We have synthesized silver nanoparticles in the range of 40-100nm average size using low concentration of saccharide simultaneously as the reducing agent and electrostatic stabilizer. Coating these silver particles with silica from tetraalkoxysilanes has different outcomes depending on the alcoholic solvent and the silver particle concentration. A common issue in solution-based synthesis of core-shell particles is heterogeneous nucleation whereupon two populations are formed: the desired core-shell particles and undesired coreless particles of the shell material. We report the formation of Ag@SiO(2) core-shell particles without coreless silica particles as the byproduct in 2-propanol. In ethanol, it depends on the silver surface area available whether homogeneous nucleation of silica on silver is achieved. In methanol and 1-butanol, core-shell particles did not form. This demonstrates the significance of controlling the tetraalkoxysilane hydrolysis rate when growing silica shells on silver nanoparticles.
将金属纳米粒子与电介质(如二氧化硅)结合起来,生产具有高介电常数的复合材料,这一动机源于储能方面的应用。如果复合材料由具有可调尺寸的金属核-电介质壳结构纳米粒子组成,则最容易控制复合材料的介电性能及其在整个复合材料中的均匀性。我们使用低浓度的糖作为还原剂和静电稳定剂,成功合成了平均粒径为 40-100nm 的银纳米粒子。用四烷氧基硅烷在这些银粒子上涂覆二氧化硅,根据醇溶剂和银粒子浓度的不同,会产生不同的结果。在基于溶液的核壳粒子合成中,一个常见的问题是异相成核,从而形成两种粒子:所需的核壳粒子和壳材料的无核粒子。我们在异丙醇中报告了 Ag@SiO(2)核壳粒子的形成,而没有作为副产物的无核二氧化硅粒子。在乙醇中,是否能够实现银上的二氧化硅均匀成核取决于银的表面积。在甲醇和 1-丁醇中,核壳粒子没有形成。这表明在银纳米粒子上生长二氧化硅壳时,控制四烷氧基硅烷水解速率的重要性。
