Alsultan Abdul Kareem Ghassan, N. Mijan, Y. Taufiq-Yap
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引用次数: 40
摘要
纳米棒是一种纳米结构,是基础研究和应用研究的对象。它们可以由碳、金、氧化锌和许多其他材料制备。它们比单个原子大(以埃为单位,1 Å = 10 (cid:1) 10 m),也比小分子大。纳米材料研究的转折点是1991年碳纳米管的发现。它们的机械、电气和光学性能取决于它们的尺寸,允许多种应用。此外,纳米棒可以被功能化用于不同的应用。本章综述了碳纳米棒、氧化锌纳米棒、金纳米棒和磁性纳米棒的合成、分析方法及其应用。溶胶-凝胶、蒸汽冷凝、喷雾热解、脉冲激光分解、激光烧蚀、热蒸发、脉冲燃烧-喷雾热解、机电、火焰喷射等离子体、微波等离子体、低能束沉积、球磨、化学气相沉积、激光烧蚀、化学还原、共沉淀、混合湿化学路线、物理蒸发、电泳沉积、射频(RF)磁控溅射、
Nanomaterials: An Overview of Nanorods Synthesis and Optimization
Nanorods are nanostructures that are the object of fundamental and applied research. They may be prepared from carbon, gold, zinc oxide, and many other materials. They are bigger than individual atoms (measured in angstroms, 1 Å = 10 (cid:1) 10 m) and also than small molecules. The turning point for nanomaterials research was the discovery of carbon nanotubes in 1991. Their mechanical, electrical, and optical properties depend upon their size, allowing for multiple applications. Also, nanorods may be functionalized for different applications. In this Chapter, the methods of synthesis and analysis, and the applications of carbon, zinc oxide, gold, and magnetic nanorods are reviewed. route, sol-gel, vapor condensa-tion, spray pyrolysis, pulse laser decomposition, laser ablation, thermal evapora-tion, pulse combustion-spray pyrolysis, electro-mechanical, flame spray plasma, microwave plasma, low energy beam deposition, ball-milling, chemical vapor deposition, laser ablation, chemical reduction, co-precipitation, hybrid wet chemical route, physical evaporation, electrophoretic deposition, radio frequency (RF) magnetron sputtering,
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