由于银纳米粒子的一些独特性质，它们在许多领域得到了广泛的应用，如分子诊断、催化和电子学。因此，开发一些新的合成方法来制备具有各种纳米结构的产品，并研究其性能受颗粒大小和形状的影响，是一个综合性的研究课题。近年来，各向同性（即球形或伪球形）粒子受到了广泛的关注。此外，许多制备粒径和粒径分布可控的颗粒的合成方法也已开发出来。这些纳米粒子的上述协议促进了对其结构、光学、催化以及电子性质的研究。然而，尽管已经对纳米粒子的组成、大小及其性质之间的关系给出了一些合理的解释，但对纳米粒子的物理化学性质与其形状之间关系的研究才刚刚起步。 目前面临的问题主要有以下两个，其一是许多方法本质上是经验性的，只适用于非常特殊的条件或苛刻的实验条件，没有一种高效、节约成本和大规模的方法可以制备单分散低维（LD）银纳米结构。其二是如何控制各向异性银纳米结构的生长和形状的形成机制仍然存在争议，许多不同的机制已经被提出。目前，人们提出了多种机制，包括光诱导聚变机制、层错机制、聚集体生长机制和表面选择性吸附机制。然而，这些机制基本上都是从实验观察中获得的，而没有一个是定量的。这两个因素可能阻碍了LD银纳米结构应用的发展。近年来，研究者在这一领域做出了许多努力。本专著试图对这些研究进行总结并开展相应工作，以期为今后的发展提供有益的信息。

ContentsChapter 1Introduction1．1Silver nanoparticles1．1．1Synthesis methods1．1．2Growth mechanism1．2Silver thin film1．3Noble metal nanoparticle doped composites1．4Functional properties and application of silver nanoparticles1．4．1Optical properties1．4．2Sensing application1．4．3Other potential applicationChapter 2Silver Spherical Nanoparticles and Their Thin Film2．1Introduction2．2Experiment section2．2．1Chemicals2．2．2Synthesis2．2．3Characterization2．3Results and discussion2．3．1Nucleation and growth of silver nanoparticles2．3．2Microstructure of spherical nanoparticles2．3．3Effect of experimental parameters2．3．4Forming silver spherical nanoparticles on different substratesurfaces2．3．5Explore further coating procedures to form nanoshell structures2．3．6Superhydrophobic surfaces2．4SummaryChapter 3Silver Nanowires3．1Introduction3．2Experiment section3．2．1Chemicals3．2．2Method3．2．3Detection of Hg2+3．2．4Characterization3．3Results and discussion3．3．1Morphology， structure， and composition of silver nanowires3．3．2Effect of experimental parameters3．3．3Growth mechanism of V-shaped silver nanowires3．3．4Sensing detection of Hg2+3．4SummaryChapter 4Silver Nanoplates4．1Introduction4．2Experiment section4．2．1Chemicals4．2．2Method4．2．3Characterization4．3Results and discussion4．3．1The role of crystalline seed structure4．3．2The effect of temperature4．4SummaryChapter 5Silver Micro-nanostructure and Its Alloy5．1Introduction5．2Experiment section5．2．1Chemicals5．2．2Synthesis of Ag micro-scale nanoparticles5．2．3Synthesis of Ag-AuPtPd alloy5．2．4Preparation of TiO2@Ag and Ag alloy composite nanoparticles5．2．5Prepare partial oxidation of methanol reaction5．2．6Characterizations5．3Results and discussion5．3．1Morphology， structure and composition of silver micro-scalenanosphere5．3．2Effect of experimental parameters5．3．3Ag and AuPtPd alloy5．3．4Photocatalytic performance of Ag， Ag-Pt alloy and Ag-Pd alloy5．3．5Catalytic activity5．4SummaryChapter 6SilverGold @ SiO2 Composite Materials6．1Introduction6．2Experimental section6．2．1Synthesis of silica nanoparticles6．2．2The Hexylamine synthesis method for fabrication of silica-coatedsilvergold nanoparticles6．2．3The Glutathione method fabrication of silica-coated goldnanoparticles6．2．4Characterizations6．3Results and discussion6．3．1Preparation of silica nanoparticles6．3．2The fabrication of silica-coated silvergold nanoparticles6．3．3The Glutathione method fabrication of silica-coated goldnanoparticles6．4SummaryChapter 7Conclusions and Future Work7．1Silver spherical nanoparticles7．2Silver nanowires7．3Silver nanoplates7．4Silver micro-nanostructure and its alloy7．5SilverGold @ SiO2 composite materials7．6Future workReferences