单分散纳米微粒制备方法研究进展

单分散纳米微粒既可以在严格控制的条件下直接制备，也可以通过对多分散纳米微粒体系进行分级分离获得。本文在总结近年来国内外单分散纳米微粒的研究工作的基础上，介绍了直接制备和分级分离这两种获得单分散纳米微粒的方法。     

纳米微粒的微乳液制备法

Ｗ／Ｏ微乳液制备纳米微粒是一新兴的研究领域。本文系统地介绍了乳浮液制备法的基本原理、微乳液“水池”中纳米微粒的鉴定方法、目前该领域的研究进展，并提出了适用于制备纳米微粒的微乳液体系的选择标准及该领域研究工作的展望。     

II-VI族半导体荧光纳米微粒及复合荧光微球的制备及应用

本文简单介绍了半导体荧光纳米微粒（又称量子点）的基本概念和荧光性质，评述了II－VI族半导体荧光纳米微粒（NCs）的制备和性质研究进展，尤其对基于荧光纳米微粒的复合荧光微球的制备、性质及改进方法进行了详细的讨论，指出目前存在问题和发展方向。     

二氧化钛纳米微粒膜光电化学行为的研究

利用不同的制备方法制备出二氧化钛纳米微粒膜，对二氧化钛纳米微粒膜的光电化学材为和产生的机理进行了研究．结果表明；二氧化钛纳米微粒膜除了具有传统半导体的光电化学性质外，还具有不同于传统半导体的光电化学性质这主要是出膜的微粒性引起的，可综合传统半导体和胶粒半导体两种模型来加以解释。     

亲油性ZnS纳米微粒的合成

纳米微粒具有小尺寸效应、表面效应、量子效应和宏观量子隧道效应等一系列普通材料所不具备的特性 ,因而引起科技工作者的广泛重视 ,成为材料科学研究的热点 .制备纳米微粒的方法很多 [1～ 7] ,但由于纳米微粒的小尺寸效应及表面效应 ,通常制备的无机纳米微粒极易团聚 ,而且无机纳米微粒的非油溶性使其在摩擦学领域的应用受到很大限制 .本文采用表面修饰 [8～ 11] 方法 ,通过共沉淀的竞争反应 ,制备了表面为有机修饰剂双十六烷基二硫代磷酸 (DDP)修饰的无机 Zn S纳米微粒 ,并用红外光谱、 X射线光电子能谱和透射电子显微镜等分析手段对表…     

油溶性金属Ni纳米微粒的制备与表征

纳米材料的制备、性能与应用已成为近年来的研究热点之一犤１犦。由于在催化、光学和电学材料中的广泛应用，超细单分散的金属微粒的制备与性质已引起人们的广泛兴趣。通常制备金属纳米微粒的方法有两种：一是把固体金属材料分裂为纳米尺寸的颗粒，如机械粉碎、电弧放电及金属原子蒸气沉积犤２犦，用这种方法制备的金属微粒粒径一般都比较大，且粒子尺寸分布宽，另一种是把金属原子制成纳米尺度的颗粒，如乳液聚合法犤３犦、热解犤４犦、γ－射线辐照犤５犦、脉冲电沉积犤６犦和化学还原犤７犦等，这种方法制备的微粒粒径通常分布窄且粒子小…     

液相分散法制备硬脂酸修饰铋纳米微粒

金属纳米微粒由于具有不同于普通材料的光、电、磁、热力学和化学反应等性能,在催化、信息存储、光电、微电子以及润滑等领域中有着广阔的应用前景。金属纳米微粒这些特殊的物理化学性能主要取决于制备工艺和具体的反应条件,因此研究具有特定性能的金属纳米微粒一直是纳米技术领域中的一个研究热点犤1,2犦,目前制备金属纳米微粒最常用的方法是液相法,它是通过在含有表面修饰剂的溶剂中还原相应的金属盐犤3,4犦或有机金属化合物热分解犤5,6犦来制备表面修饰的金属纳米微粒。虽然这种方法能够制备出多种具有特定性能的金属纳米微粒,但是这种方…     

无溶剂热分解单源前驱体法制备有机单分子层表面修饰NiS纳米微粒

纳米微粒由于具有很多特别的物理和化学性质,在光、电、磁、机械等各个领域显示出了广阔的应用前景,所以纳米微粒的制备与性能研究是近年来化学、物理和材料科学中最热门和最前沿的课题之一。尽管目前有多种纳米微粒的制备方法见诸文献报道,但是新的纳米微粒的制备方法依然是人们追求的目标之一。无溶剂合成纳米材料是近年来开始研究的制备纳米材料的新方法,在无溶剂环境中,微粒之间的碰撞基本不发生,微粒生长过程是通过单体加成来实现的,这样就较易得到形状和尺寸单分散的纳米材料。但是采用无溶剂合成纳米材料时通常需要加入捕获剂来控制…     

半导体硫化物纳米微粒的制备

总结了硫化物半导体纳米微粒的各种合成途径,并就水热技术及在此基础上发展起来的溶剂热合成技术在一系列硫化物纳米微粒的制备与尺寸、形状控制中的应用进行了阐述。     

半导体纳米微粒在聚合物基体中的复合与组装

总结了有关半导体纳米微粒在聚合物基体中的制备，复合与组装及性能研究等工作，对半导体纳米微粒的尺寸大小，粒度分布，表面修饰，复合过程及组装维数等控制问题进行了讨论。     

聚合物纳米粒子用于给药载体

聚合物纳米粒子用于给药载体具有广阔的前景，本文按聚合物纳米粒子的主要制备方法（单体聚合法，聚合物后分散法和两亲性聚合物自组装法等）综述了它近十年来在药物靶向输送上的应用研究进展。     

超临界CO2在高分子合成与制备中的应用

介绍超临界二氧化碳流体作为介质在高分子合成与制备中的研究进展。文中表明，可在超临界二氧化碳中实施氟代单体的自由基溶液聚合、甲基丙烯酸甲酯的分散聚合、丙烯酸的沉淀聚合、丙烯酰胺的反相乳液聚合以及异丁基乙烯基醚的阳离子聚合等多种聚合反应，可用超临界二氧化碳溶胀聚合法制备梯度共混物。此外，超临界二氧化碳还可用于聚合物分级和聚合物微孔、微纤与微球材料的制备等，显示出超临界二氧化碳是一种对环境无污染且价廉的     

Preparation and Storage of Silver Nanoparticles in Aqueons Polymers

以水溶性聚合物为保护剂,采用化学还原法制备了银纳米粒子,分别利用透射电子显微镜、紫外可见光谱、同步光散射光谱等手段对其进行了表征,并探索了制备银纳米粒子的最佳实验条件。通过将银纳米粒子-聚合物溶液进行脱水,得到含有银纳米粒子的固态聚合物膜。将固态聚合物膜重新溶解于水,其水溶液的紫外可见光谱与脱水前的溶液进行了比较,发现两者性质并无明显差异。因此,将银纳米粒子分散固定在聚合物膜中是一种崭新而有效的银纳米粒子制备和存储方法。     

Low-temperature solution route to macroscopic amounts of hydrogen terminated silicon nanoparticles

A new solution route for preparing gram-scale, hydrogen terminated silicon nanoparticles is presented. Dimethoxyethane and diocytl ether have been used to prepare silicon nanoparticles via a solution reaction between sodium silicide and ammonium bromide. The reaction products are isolated as a clear yellow-orange solution and a dark black powder. Both the solution and the powder have been characterized.     

Versatile nanocomposites in phosphoproteomics: A review

Protein phosphorylation is one of the most important post-translational modifications. Phosphorylated peptides are present in low abundance in blood serum but play a vital role in regulatory mechanisms and may serve as casual factors in diseases. The enrichment and analysis of phosphorylated peptides directly from human serum and mapping the phosphorylation sites is a challenging task. Versatile nanocomposites of different materials have been synthesized using simple but efficient methodologies for their enrichment. The nanocomposites include magnetic, coated, embedded as well as chemically derivatized materials. Different base materials such as polymers, carbon based and metal oxides are used. The comparison of nanocomposites with respective nanoparticles provides sufficient facts about their efficiency in terms of loading capacity and capture efficiency. The cost for preparing them is low and they hold great promise to be used as chromatographic materials for phosphopeptide enrichment. This review gives an overview of different nanocomposites in phosphoproteomics, discussing the improved efficiency than the individual counterparts and highlighting their significance in phosphopeptide enrichment.     

有机大分子导向无机纳米粒子的分级有序自组装

本文主要综述了基于特定分子设计的有机大分子导向下的无机纳米粒子的分级有序自组装.可以有效导向无机纳米粒子组织的有机大分子主要包括合成大分子和生物大分子,前者如具有氢键识别功能的大分子、聚电解质、嵌段大分子、树枝状大分子;后者如DNA、糖类以及蛋白质.所涉及的无机纳米粒子通常需要通过单层修饰使之与特定的大分子具有识别功能,或者设计表面带有正或负电荷使之与带有负或正电荷的大分子相互识别.该领域的研究在先进功能材料及仿生材料方面具有重要意义.     

Molecular-Integrated Phospholipid Polymer Nanoparticles with Highly Biofunctionality

Surface modifications of nanoparticles with phospholipid polymers composed of 2-methacryloyloxyethyl phosphorylcholine (MPC), are summarized. The MPC can be available for various polymerization methods such as conventional radical polymerization and living radical polymerization, and easily copolymerized with other vinyl compounds. The MPC polymers have been widely used as biocompatible coating and stabilizer for nanoparticles even when they are under biological environment. Additionally, for immobilization of biomolecules, such as antibody and enzyme, the MPC polymers having active ester group are applicable. These MPC polymers coated on the nanoparticles immobilize protein under mild condition and the protein maintained bioactivity well. Moreover, introduction of functional inorganic nanocrystals inside of the nanoparticles is effective to obtain good imaging tool for specific cells. The potential of molecular integration on nanoparticles based on MPC polymer chemistry will be expanded nanobiosensing, nanoimaging and nanodiagnostic system.     

Photogeneration of Silver Nanoparticle Facilitated by Pluronic F127 Surfactant in Ethanolic Solution

In the present study, the photo-generation of silver nanoparticles in ethanolic solution and in the presence of F127 block copolymer using UV irradiation have been investigated. The aim of the present study is preparing the green, facile and much faster method than previous studies. The kinetics of silver nanoparticles formation has been investigated by using UV-vis spectroscopy. The two-dimensioanl map technique has been used to estimate the switching time between the nucleation and growth of Ag nanoparticles. The results show that the dispersed Ag nanoparticle in ethanol can be formed by high intensity ultraviolet exposure within few minutes.     

Flame retardant polyamide 6 by in situ polymerization of ε-caprolactam in the presence of melamine derivatives

An improved method for preparing melamine cyanurate （MCA） based flame retardant polyamide 6 （FRPA6） materials has been proposed. This processing method, i.e., improved in situ polymerization, was used to synthesize flame retardant PA6. In situ formed MCA nanoparticles were supposed to be linked to PA6 chains in the ε-caprolactam hydrolytic polymerization system to obtain startype polymers for the first time. Through TEM photographs, it can be found that the in situ formed MCA nanoparticles with diametric size of less than 50 nm, are nanoscaled, highly uniformly dispersed in the PA6 matrix. Synthesized flame retardant PA6 have good fire performance which can achieve UL-94 V-0 rating at 1.6 mm thickness with the presence of 7.34 wt.% MCA in the matrix.     

Flame retardant polyamide 6 by in situ polymerization of ε-caprolactam in the presence of melamine derivatives

An improved method for preparing melamine cyanurate (MCA)based flame retardant polyamide 6 (FRPA6)materials has been proposed.This processing method,i.e.,improved in situ polymerization,was used to synthesize flame retardant PA6.In situ formed MCA nanoparticles were supposed to be linked to PA6 chains in the ε-caprolactam hydrolytic polymerization system to obtain startype polymers for the first time.Through TEM photographs,it can be found that the in situ formed MCA nanoparticles with diametric size of less than 50 nm,are nanoscaled,highly uniformly dispersed in the PA6 matrix.Synthesized flame retardant PA6 have good fire performance which can achieve UL-94 V-0 rating at 1.6 mm thickness with the presence of 7.34 wt.% MCA in the matrix.