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金属银的合成及半导体纳米硫化锌自-assembled聚电解质模板

Synthesis of metallic Ag and semiconducting ZnS nanoparticles in self -assembled polyelectrolyte templates
课程网址: http://videolectures.net/slonano07_logar_sma/  
主讲教师: Manca Logar
开课单位: 约瑟夫·斯特凡学院
开课时间: 2008-02-12
课程语种: 英语
中文简介:
金属和半导体纳米粒子由于其独特的尺寸依赖特性, 由于其量子约束效应和大表面积, 最近引起了人们的极大兴趣。纳米粒子合成的主要问题是它们的聚集, 这往往禁止粒径的裁剪。在技术上有用的配方中操作和处理这些纳米粒子的一种方便方法是聚合物基质中纳米粒子的 "原位形成", 它可以防止纳米粒子的聚集, 并使纳米粒子产生他们的均匀分布。将聚烯丙胺 (pah) 和聚丙烯酸 (paa) 的聚电解质多层膜 (pem) 在亲水聚苯乙烯组织培养和表面改性石英基板上, 交替浸渍为聚阴离子和聚离子具有不同 ph 值的水溶液, 直到获得所需的 pom 厚度。通过调整浸渍 paa 溶液的 ph 值, 控制了 paa 游离羧酸重复单元的线性电荷密度或浓度。因此形成的 pom 暴露在名义上中性 ph 值的金属离子溶液中。通过随后还原银离子或硫化锌离子, 在 pom 中形成金属 (ag) 或半导体纳米粒子 (zns)。由于 paa 的纳米粒子形成羧基再生, 合成方法可以反复循环, 以纳入更多的金属离子, 从而能够形成纳米颗粒大小和浓度的纳米颗粒薄膜可以纵。本工作的目的是通过改变合成条件来控制原位形成的无机纳米粒子的大小和浓度。
课程简介: Metal and semiconductor nanoparticles have attracted much interest lately due to their unique size dependant properties, stemming from their quantum confinement effects and large surface areas. The main problem in nanoparticle synthesis is their aggregation which often prohibits tailoring of particle size. One of the convenient methods to manipulate and process these nanoparticles in technologically useful formulations is an “in-situ formation” of nanoparticles in polymer matrices which prevents the aggregation of the nanoparticles and enables their uniform distribution. The polyelectrolyte multilayers (PEMs) of polyallylamine (PAH) and polyacrylic acid (PAA) were assembled on hydrophilic polystyrene tissue-cultured and surface modified quartz substrates by alternately dipping the substrates into polyanion and polycation aqueous solutions with various pH values until the desired thickness of the PEMs was obtained. The linear charge density or concentration of free carboxylic acid repeating units of PAA was controlled by adjusting the pH of the dipping PAA solutions. Thus formed PEMs were exposed to the metal ion solution at nominally neutral pH. By subsequent reduction of Ag ions or sulfidication of the Zn ions, metallic (Ag) or semiconductor nanoparticles (ZnS) are formed within the PEMs. Since upon nanoparticle formation carboxylic groups of PAA are regenerated, the synthesis methodology can be repeatedly cycled to incorporate more metal ions, which enables the formation of nanoparticulate films where the nanoparticle size and concentration can be manipulated. The aim of this work is to control the size and concentration of the in-situ formed inorganic nanoparticles by varying the synthesis conditions.
关 键 词: 纳米技术; 纳米材料; 纳米粒子; 纳米电子学
课程来源: 视频讲座网
最后编审: 2020-07-28:yumf
阅读次数: 38

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