Jana Nikhil R
Department of Chemistry, Raja Rammohun Roy Mahavidyalaya, Radhanagar-712406, Hooghly, WB, India.
Small. 2005 Aug;1(8-9):875-82. doi: 10.1002/smll.200500014.
An aqueous surfactant-based colloidal chemical method is reported for the synthesis of anisotropic noble-metal nanoparticles on the milligram to multigram scale. Fine control of the nucleation-growth kinetics and rodlike micelle-induced breaking of symmetry at the early stage of particle growth are responsible for high-quality anisotropic nanoparticles. Near-monodisperse gold and silver nanorods, spheroids, nanowires, platelets, or cubes of 4-50 nm dimension and controllable aspect ratio can be prepared. The method may also be extended to semiconductor systems.
报道了一种基于水性表面活性剂的胶体化学方法,用于毫克至克级规模的各向异性贵金属纳米颗粒的合成。对成核-生长动力学的精细控制以及颗粒生长早期棒状胶束诱导的对称性破坏是高质量各向异性纳米颗粒形成的原因。可以制备尺寸为4-50nm且长径比可控的近单分散金和银纳米棒、球体、纳米线、薄片或立方体。该方法也可扩展到半导体体系。